Markers for responsiveness to an erbB receptor tyrosine kinase inhibitor

ABSTRACT

The invention relates to a set of isolated marker genes comprising at least one gene identified as having differential expression as between patients who are responders and non responders to an erbB receptor tyrosine kinase inhibitor; said gene set comprising one or more genes selected from at least the group consisting of the 51 genes listed herein including gene-specific oligonucleotides derived from said genes; and uses of such sets in diagnostic applications.

RELATED APPLICATIONS

This application is a continuation of International Application No. PCT/GB2004/002316, which was filed on Jun. 1, 2004, which designated the United States and was published in English, and which claims the benefit of United Kingdom applications GB0312451.8, filed 30 May 2003, GB0322636.2, filed Sep. 26, 2003, and GB0327132.7, filed Nov. 21, 2003. The above mentioned references are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to a method of personalized cancer therapy which employs a set of marker genes to predict whether a patient will respond to a chemotherapeutic agent and a kit for use in said method.

In particular, the method predicts patient response to erbB tyrosine kinase inhibitors. More particularly the method relates to those patients with cancers mediated alone or in part by erbB tyrosine kinase, especially patients with advanced Non-small Cell Lung Cancer (NSCLC), for example adenocarcinoma, using the levels of a set of marker genes having differential expression between responders and non responders to the erbB tyrosine kinase inhibitor.

BACKGROUND TO THE INVENTION

Lung cancer is the leading cause of cancer death and is therefore a major health problem worldwide. In the treatment of this disease, chemotherapy is the mainstay, because the majority has locally advanced stage 3 (44%) or metastatic stage 4 (32%) disease at diagnosis [1]. Nevertheless, the findings of large meta-analysis revealed that platinum-based chemotherapy contributed to prolong the median survival time of patients with advanced non-small cell lung cancer (NSCLC) by only about 6 weeks compared with best supportive care [2].

In the last decade, many new cytotoxic agents have been developed including paclitaxel, docetaxel, gemcitabine, and vinorelbine, and have offered multiple choices for patients with advanced lung cancer. However, each regimen served only modest survival benefit compared with the cisplatin-based therapies [3], [4]. More recently, new therapeutic strategies including a number of molecular-targeted agents have been developed in an effort to overcome the limitations of conventional cytotoxic agents [5] [6].

In recent years it has been discovered that certain growth factor tyrosine kinase enzymes are important in the transmission of biochemical signals which initiate cell replication. They are large proteins which span the cell membrane and possess an extracellular binding domain for growth factors such as epidermal growth factor (EGF) and an intracellular portion which functions as a kinase to phosphorylate tyrosine amino acids in proteins and hence to influence cell proliferation.

Various classes of receptor tyrosine kinases are known (Wilks, Advances in Cancer Research, 1993, 60, 43-73) based on families of growth factors which bind to different receptor tyrosine kinases. The classification includes Class I receptor tyrosine kinases comprising the EGF family of receptor tyrosine kinases. This includes receptors for the ligands EGF, TGFα (also referred to as TGFA), amphiregulin (also referred to as AREG), betacellulin, heparin binding EGF, epiregulin and the neuregulins (including NRG-1, NRG-2, NRG-3 and NRG-4). More specifically, these receptors include those with a functional kinase domain called erbB I (EGFR), erbB2 (Neu, Her2) and erbB4 (Her 4), and erbB3 (her3), which does not), Class II receptor tyrosine kinases comprising the insulin family of receptor tyrosine kinases such as the insulin and IGFI receptors and insulin-related receptor (IRR) and Class III receptor tyrosine kinases comprising the platelet-derived growth factor (PDGF) family of receptor tyrosine kinases such as the PDGFα, PDGFβ and colony-stimulating factor 1 (CSF1) receptors.

It is known that the erbB family of receptor tyrosine kinases, which include EGFR, erbB2, erbB3 and erbB4, are frequently involved in driving the proliferation and survival of tumour cells (reviewed in Olayioye et al., EMBO J., 2000, 19, 3159). One mechanism by which this can occur is over expression of the receptor at the protein level, generally as a result of gene amplification. This has been observed in many common human cancers (reviewed in Klapper et at., Adv. Cancer Res., 2000, 77, 25) such as, non-small cell lung cancers (NSCLCs) including adenocarcinomas (Cerny et al., Brit. J. Cancer, 1986, 54, 265; Reubi et al, Int. J. Cancer 1990, 45, 269; Rusch et al, Cancer Research, 1993, 53, 2379; Brabender et al, Clin. Cancer Res., 2001, 7, 1850) as well as other cancers of the lung (Hendler et al., Cancer Cells, 1989, 7, 347.

As a consequence of the mis-regulation of one or more of these receptors, it is widely believed that many tumours become clinically more aggressive and so correlate with a poorer prognosis for the patient (Brabender et al, Clin. Cancer Res., 2001, 7, 1850; Ross et al, Cancer Investigation, 2001, 19, 554, Yu et al., Bioessays, 2000, 22.7, 673). In addition to these clinical findings, a wealth of pre-clinical information suggests that the erbB family of receptor tyrosine kinases are involved in cellular transformation. In addition to this, a number of pre-clinical studies have demonstrated that anti-proliferative effects can be induced by knocking out one or more erbB activities by small molecule inhibitors, dominant negatives or inhibitory antibodies (reviewed in Mendelsohn et al., Oncogene, 2000, 19, 6550).

Thus it has been recognised that inhibitors of these receptor tyrosine kinases should be of value as a selective inhibitor of the proliferation of mammalian cancer cells (Yaish et al. Science, 1988, 242, 933, Kolibaba et al, Biochimica et Biophysica Acta, 1997, 133, F217-F248; Al-Obeidi et al, 2000, Oncogene, 19, 5690-5701; Mendelsohn et al, 2000, Oncogene, 19, 6550-6565). In addition to this pre-clinical data, findings using inhibitory antibodies against EGFR and erbB2 (c-225 and trastuzumab respectively) have proven to be beneficial in the clinic for the treatment of selected solid tumours (reviewed in Mendelsohn et al, 2000, Oncogene, 19, 6550-6565).

A number of small molecule inhibitors of erbB family of receptor tyrosine kinases are known, particularly inhibitors of EGF and erbB2 receptor tyrosine kinases. For example European Patent Application No. 0566226 and International Patent Applications WO 96/33980 and WO 97/30034 disclose that certain quinazoline derivatives which possess an anilino substituent at the 4-position possess EGFR tyrosine kinase inhibitory activity and are inhibitors of the proliferation of cancer tissue including prostate cancer. It has been disclosed by J R Woodburn et al. in Proc. Amer. Assoc. Cancer Research, 1997, 38, 633 and Pharmacol. Ther. 1999, 82, 241-250 that the compound N-(3-chloro-4-fluorophenyl)-7-methoxy-6-(3-morpholinopropoxy)quinazolin-4-amine is a potent EGFR tyrosine kinase inhibitor. This compound is also known as Iressa (registered trade mark), gefitinib (United States Adopted Name), by way of the code number ZD1839 and Chemical Abstracts Registry Number 184475-35-2. The compound is identified hereinafter as gefitinib. Gefitinib has recently been approved in Japan for the treatment of inoperable or recurrent non-small cell lung cancer (NSCLC) and in the USA as a monotherapy for the treatment of patients with locally advanced metastatic NSCLC after failure of both platinum and docetaxel chemotherapies.

It is further known from International Patent Application WO 96/30347 that certain structurally-related quinazoline derivatives possessing an anilino substituent at the 4-position also possess EGFR tyrosine kinase inhibitory activity. It has been disclosed in WO 99/55683 that the compound N-(3-ethynylphenyl)-6,7-bis(2-methoxyethoxy)quinazolin-4-amine, or a pharmaceutically-acceptable salt thereof (linked to the code numbers CP 358774 and OSI-774, identified hereinafter by the code number OSI-774) is an EGFR TKI.

It is further known from International Patent Application WO 97/38983 that certain other structurally-related quinazoline derivatives possessing an anilino substituent at the 4-position also possess EGFR tyrosine kinase inhibitory activity. It has been disclosed in J. Med. Chem., 1999, 42,1803-1815 and WO 00/31048 that the compound 6-acrylamido-N-(3-chloro-4-fluorophenyl)-7-(3 morpholinopropoxy)quinazolin-4-amine (linked to the code numbers PD 183805 and CI 1033, identified hereinafter by the code number CI 1033) is an EGFR TKI.

It is further known from International Patent Application WO 97/02266 that certain other structurally-related heterocyclic derivatives also possess EGFR tyrosine kinase inhibitory activity. For example, the compound 4-[(1R)-1-phenylethylamino]-6-(4-hydroxyphenyl)-7H-pyrrolo[2,3-d]pyrimidine (linked to the code numbers PKI-166, CGP 75166 and CGP 59326, identified hereinafter by the code number PKI-166) is an EGFR TKI.

It is further known from European Patent Application No. 0787722 and International Patent Applications WO 98/50038, WO 99/09016 and WO 99/24037 that certain other structurally-related quinazoline derivatives possessing an anilino substituent at the 4-position also possess EGFR tyrosine kinase inhibitory activity. For example, the compound N-[4-(3-bromoanilino)quinazolin-6-yl]but-2-ynamide (linked to the code numbers CL-387785 and EKB-785, identified hereinafter by the code number CL-387785) is an EGFR TKI.

It is further known from Nature Medicine, 2000, 6, 1024-1028 and U.S. Pat. No. 6,002,008 that certain other structurally-related quinoline derivatives possessing an anilino substituent at the 4-position also possess EGFR tyrosine kinase inhibitory activity. For example, the compound 4-(3-chloro-4-fluoroanilino)-3-cyano-6-(4-dimethylaminobut-2(E)-enamido)-7-ethoxyquinoline (identified hereinafter by the code number EKB-569) is an EGFR TKI.

It is also known from WO 99/35146 and WO 01/04111 that certain other quinazoline derivatives are inhibitors of one or more of the erbB receptor tyrosine kinase inhibitors. For example the compound N-{3-chloro-4-[(3-fluorobenzyl)oxy]phenyl}-6-[5-({[2-(methylsulfonyl)ethyl]amino}methyl)-2-furyl]quinazolin-4-amine (also identified as lapatinib or GW2016 identified hereinafter by the code GW2016) is thought to be an inhibitor of both EGF and erbB2 receptor tyrosine kinases. Novartis AE788 is another suitable inhibitor compound.

Inhibition of erbB receptor tyrosine kinase may also be achieved by inhibition of the extracellular ligand binding to a receptor using suitable antibodies against an erbB receptor. For example using the anti-erbB2 antibody trastuzumab [Herceptin™] and the anti-erbb1 antibody cetuximab [C225]). The use of such inhibitory antibodies have proven to be beneficial in the clinic for the treatment of selected solid tumours (reviewed in Mendelsohn et al, 2000, Oncogene, 19, 6550-6565).

As mentioned above, gefitinib is an oral active inhibitor of epidermal growth factor receptor-tyrosine kinase (EGFR-TK), which blocks signalling pathways responsible for driving proliferation, invasion, and survival of cancer cells [7]. Potent anti-tumour effects as well as rapid improvements in NSCLC-related symptoms and quality of life have been observed in clinical studies that enrolled patients with advanced NSCLC who did not respond to platinum-based chemotherapy. In the randomized double-blind phase II monotherapy trial (the IDEAL 1 trial), use of gefitinib as 2nd or 3rd line of chemotherapy to advanced NSCLC achieved tumour response rate of 18.4% (95% CI: 11.0-25.9%), and in the IDEAL 2 trial, use as 3rd or 4th line of chemotherapy achieved that of 11.8% (95% CI: 6.2-19.7%) [8],[27],[28].

Moreover in these trials, the treatment of this drug achieved high disease control rate (54.4% in IDEAL 1, 42.2% in IDEAL 2) and overall symptom improvement rate (40.3% in IDEAL 1, 43.1% in IDEAL 2).

Those results were promising when compared with responses to conventional cytotoxic agents, but the fact remained that about half of the patients enrolled in these studies received non-effective treatment with no improvement in symptoms. Moreover, the medication exposed non-responders to adverse effects, including life threatening ones such as interstitial pneumonia [11].

Patients responses to the various chemotherapy treatments differ, therefore there is a need to find methods of predicting which treatment regimes best suit a particular patient.

There is an increasing body of evidence that suggests that patients responses to numerous drugs may be related to a patients genetic profile and that determination of the genetic factors that influence, for example, response to a particular drug could be used to provide a patient with a personalised treatment regime. Such personalised treatment regimes offer the potential to maximise therapeutic benefit to the patient, whilst minimising, for example side effects that may be associated with alternative and less effective treatment regimes. There is therefore a need for methods that can predict a patients response to a drug.

SUMMARY OF THE INVENTION

It has been found that the sensitivity of certain cancers to chemotherapeutic agents can be predicted by gene expression and hence that the suitability of cancer patients for treatment with such chemotherapeutic agents can be determined by measuring the relative levels of particular genes in patient tissue.

Accordingly, the present invention provides an isolated set of marker genes comprising at least one gene identified as having differential expression as between patients who are responders and non responders to an erbB receptor tyrosine kinase inhibitor, said gene set comprising one or more genes selected from at least the group consisting of the 51 genes listed in Table 4 herein including gene-specific oligonucleotides derived from said genes. In Table 4, accession numbers are given for the genes on the GenBank database.

Sequences of these genes are described in Table 4a and Table 4b. As will be appreciated by those skilled in the art, sequences available at the given accession numbers represent only examples of sequences of the genes referred to in the table; alternative sequences, including sequences which comprise sequencing error corrections, allelic or other variations, splice mutants and the like are also included in the definition of the gene represented by the name used. In a most preferred embodiment, the sequences referred to are the sequences set forth at the accession numbers and specific sequences given and set out in detail in Table 4a.

In a further aspect the present invention provides a set of isolated marker genes comprising at least one gene identified as having differential expression as between patients who are responders and non responders to an erbB receptor tyrosine kinase inhibitor; said gene set selected from the group consisting of the 51 genes listed in Table 4 herein including gene-specific oligonucleotides derived from said genes.

The present invention permits the improved prognosis and hence quality of life of cancer patients by matching the treatments to individual patients and so making more effective use of the types of drug available.

A preferred set is at least one or more of the first 40 genes listed in Table 4 herein.

A further preferred set is at least one or more of the first 20 genes listed in Table 4 herein.

A further preferred set is at least one or more of the first 12 genes listed in Table 4 herein.

A preferred set is at least one or more of the first 5 genes listed in Table 4 herein.

An especially preferred set is the first 12 genes listed in Table 4a herein, namely FLJ22622 (e.g. GenBank NM_(—)024829), AREG (e.g. GenBank BC009799), C0R01C (e.g. GenBank NM_(—)014325), AVEN (e.g. GenBank BC010488), DUSP3 (e.g. GenBank NM_(—)004090, DJ473B4 (e.g. GenBank AI026836), PHLDA2 (e.g. GenBank BU500509), RBM7 (e.g. GenBank NM_(—)0106090), EST (GenBank BX0952512), OSMR (e.g. GenBank AI436027), GCLC (e.g. GenBank AI971137), COL4A3BP (e.g. GenBank BQ024877).

Preferably the inhibitor is selected from gefitinib, OSI-774, PKI-166, EKB-569, GW2016, CI-1033 and an anti-erbB antibody such as trastuzumab and cetuximab.

Most preferably the inhibitor is gefitinib.

The present invention is particularly suitable for use in predicting the response to the aforementioned chemotherapeutic agents in those patients or patient population with a cancer mediated alone, or in part, by an erbB tyrosine kinase. Such cancers include, for example, non-solid tumours such as leukaemia, multiple myeloma or lymphoma, and also solid tumours, for example bile duct, bone, bladder, brain/CNS, breast, colorectal, cervical, endometrial, gastric, head and neck, hepatic, lung, muscle, neuronal, oesophageal, ovarian, pancreatic, pleural/peritoneal membranes, prostate, renal, skin, testicular, thyroid, uterine and vulval tumours.

The present invention is particularly suitable for identifying those patients with NSCLC, more particularly advanced NSCLC including advanced adenocarcinoma that will respond to treatment with chemotherapeutic agents such as an erbB receptor tyrosine kinase inhibitor as hereinbefore defined.

The present invention offers considerable advantages in the treatment of cancers such as NSCLC, especially advanced NSCLC by identifying “individual cancer profiles” of NSCLC and so determining which tumours would respond to gefitinib. This includes 1^(st) line treatment and any other treatment regimen, such as, for example chemotherapy failed patients.

The present invention is particularly useful in the treatment of patients with advanced NSCLC who have failed previous chemotherapy, such as platinum-based chemotherapy.

The present invention is also particularly useful in the treatment of patients with locally advanced (stage lIIB) or metastasized (stage IV) NSCLC who have received previous chemotherapy, such as platinum-based chemotherapy.

The present invention also provides a method of predicting the responsiveness of a patient or patient population with cancer-, for example lung cancer, to treatment with chemotherapeutic agents, especially erbB receptor tyrosine kinase inhibitors, comprising comparing the differential expression of a set of marker genes said marker genes selected from the gene sets as defined above.

Preferably the assessment of expression is performed by gene expression profiling using oligonucleotide-based arrays or cDNA-based arrays of any type; RT-PCR (reverse transcription—Polymerase Chain Reaction), real-time PCR, in-situ hybridisation, Northern blotting, Serial analysis of gene expression (SAGE) for example as described by Velculescu et al Science 270 (5235): 484-487, or differential display. Details of these and other methods can be found for example in Sambrook et al, 1989, Molecular Cloning: A Laboratory Manual). Preferably the assessment uses a microarray assay.

Alternatively, or in addition, the assessment uses an immunohistochemical assay.

In a further aspect, the present invention provides a kit for use in a method of predicting the responsiveness of a patient or patient population with cancer, to treatment with chemotherapeutic agents, especially erbB receptor tyrosine kinase inhibitors, comprising a marker gene set as defined above on a suitable support medium. Preferably the marker gene is attached to a support material or membrane such as nitrocellulose, or nylon or a plastic film or slide.

Preferably the kit comprises a microarray.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1: Images illustrating laser-microbeam microdissection of four representative lung adenocarcinomas. The upper row shows the samples before dissection; the lower row, dissected cancer cells (H.E. stain X100). TBB indicates transbronchial biopsy; LN, lymph-node.

FIG. 2: Establishing a scoring system to predict the efficacy of gefitinib treatment.

A. Different prediction scores appear when the number of discriminating genes is changed. The number of the discriminating gene sets (from 5 to 51) corresponds to the number of selected genes from the top of the rank-ordered list in table 4. A larger value of classification score (CS) indicates better separation of the two groups.

B. Hierarchical clustering of 17 “learning” cases using 51 candidate genes for gefitinib-sensitivity (left), and 12 prediction genes that were finally selected for the GRS (right). The dendrograms represent similarities in expression patterns among individual cases; longer branches indicate greater differences. The two groups were most clearly separated by the 12-gene set.

C. Schematic distinction of responder, non-responder and “test cases” verified on the basis of the GRS. Red diamonds denote prediction scores for learning PR cases and blue diamonds represent learning PD cases. A pink triangle indicates a test PR case that had not been used for establishing GRS, and blue triangles indicate test PD cases. Yellow triangles indicate test SD cases that kept the SD status throughout the 4-month observation period, and green triangles indicate test cases once judged as SD at a certain-time point of the study but showed progression of the disease within three or four months after the start of treatment.

FIG. 3: Validation of GRS with semi-quantitative RT-PCR and immunohistochemical analyses.

A. Representative image of semi-quantitative RT-PCR analysis of RNAs from the PR and PD groups. OSMR and GCLC genes were over-expressed in non-responders (PD). The integrity of each cDNA template was controlled through amplification of ACTB.

B. Immunohistochemical staining of representative samples from fiberscopic transbronchial biopsy (TBB) and lymph-node (LN) biopsy from the same PD-patient (No. LC21), using anti-AREG antibody (X 200).

C. Immunohistochemical staining of representative samples from PD patients, using antibodies for other 4 prediction markers (TGFA, ADAM9, CD9, and OSMR) (X200).

FIG. 4: Serologic concentration of TGFA determined by ELISA in 5 PR, 10 SD, and 20 PD adenocarcinoma cases. The averaged serum levels of TGFA were shown as black bars: 19·0±2·8 pg/ml (mean±SE) in PD patients, 13·9±1·9 pg/ml in SD patients, and 12·8±1·4 pg/ml in PR patients.

FIG. 5: Anti-apoptotic effect of secreted AREG on gefitinib-sensitive PC-9 cells.

A. Expression of AREG transcript examined by semi-quantitative RT-PCR in lung-adenocarcinoma cell lines PC-9, NCI-H358, and -H522.

B. PC-9 cells cultured in medium supplemented with 10% FCS, in serum-free medium, or in serum-free conditioned medium (CM) obtained from cultures of NCI-H358 or -H522 cells. Each medium was replaced once with the same medium at the 48-hour time point; 72 hours after adding gefitinib at concentrations of 0·5 or 1·0 μM, cell viability was measured by MTT assays. The experiments were done in triplicate. The Y-axis indicates the relative MTT value (MTT in the presence of 0·or 1·0 μM gefitinib/MTT in the absence of gefitinib) of the cells incubated in different media.

C. Effect of AREG, secreted in an autocrine manner, on the resistance of NSCLC cells to gefitinib. At the start of culture, PC-9 cells were inoculated into medium containing 1·0 μM gefitinib and recombinant AREG protein (final concentrations of 1-100 ng/ml); 72 hours later, cell viability was measured by triplicate MTT assays (blue bars). The Y-axis indicates the relative MTT values (MTT at individual concentrations of AREG/MTT without AREG) of the cells.

Effect of AREG on the viability of NSCLC cells in the absence of 1·0 μM gefitinib was also studied. Individual PC-9 cells were added to medium containing recombinant AREG protein but no gefitinib; 72 hours later, viability was measured by triplicate MTT assays (red bars).

FIG. 6: Immunohistochemical analysis of amphiregulin expression in sections derived from PD and PR patients.

DETAILED DESCRIPTION

The invention will be described in more detail and illustrated by the following examples which are meant to serve to assist one of ordinary skill in the art in carrying out the invention and are not intended in any way to limit the scope of the invention. Certain elements of the invention are also described in more detail below.

“Set of Isolated Marker Genes”

These are, according to the context of the embodiments described herein, a group of genes which can be used in classification or categorisation of patent response according to the invention.

“Differential Expression”

Genes that are either expressed at a higher or lower level as between groups of responders or nonresponders.

“Responders/Non Responders”

Objective tumour responses according to Union International Contre le Cancer/World Health Organization (U ICC/WHO) Criteria are categorised as follows: complete response (CR): no residual tumour in all evaluable lesions; partial response (PR): residual tumour with evidence of chemotherapy-induced 50% or greater decrease under baseline in the sum of all measurable lesions and no new lesions; stable disease (SD) residual tumour not qualified for CR; and progressive disease (PD): residual tumour with evidence of 25% or greater increase under baseline in the sum of all measurable lesions or appearance of new lesions. As defined herein, non responders are PD.

The present invention is particularly effective for determining those patients which are CR or PR

“ErbB Receptor Inhibitors Including, Without Limitation, ErbB Receptor Tyrosine Kinase Inhibitors”

This family includes EGF, erbB2 (HER), erbB3 (note that erbB3 does not have a functional kinase domain) and erbB4 as described in the background to the invention above.

“Gene-Specific Oligonucleotides”

These are intended to be unique to the respective genes so that, for example, fragments of the gene that uniquely identify the gene. Advantageously, a gene-specific oligonucleotide is between 5 and 50 nucleotides in length, preferably about 15 to 30 nucleotides, and most preferably about 23 nucleotides.

“Arrays or Microarrays”

Array technology and the various techniques and applications associated with it are described generally in numerous textbooks and documents. Gene array technology is particularly suited to the practice of the present invention. Methods for preparing microarrays are well known in the art. These include Lemieux et al., (1998), Molecular Breeding 4, 277-289, Schena and Davis. Parallel Analysis with Biological Chips. in PCR Methods Manual (eds. M. Innis, D. Gelfand, J. Sninsky), Schena and Davis, (1999), Genes, Genomes and Chips. In DNA Microarrays: A Practical Approach (ed. M. Schena), Oxford University Press, Oxford, UK, 1999), The Chipping Forecast (Nature Genetics special issue; January 1999 Supplement), Mark Schena (Ed.), Microarray Biochip Technology, (Eaton Publishing Company), Cortes, 2000, The Scientist 14[17]:25, Gwynne and Page, Microarray analysis: the next revolution in molecular biology, Science, Aug. 6, 1999; and Eakins and Chu, 1999, Trends in Biotechnology, 17, 217-218.

The technology is described in PCT/US01/10063 and US 2002 090979 and references therein.

Commercial suppliers include Affymetrix (California) and Clontech Laboratories (California).

Major applications for array technology include the identification of sequence (nucleotide sequence/nucleotide sequence mutation) and the determination of expression level (abundance) of nucleotide sequences. Gene expression profiling may make use of array technology, optionally in combination with proteomics techniques (Celis et al, 2000, FEBS Lett, 480(1):2-16; Lockhart and Winzeler, 2000, Nature 405(6788):827-836; Khan et al., 1999, 20(2):223-9). Other applications of array technology are also known in the art; for example, nucleotide sequence discovery, cancer research (Marx, 2000, Science 289: 1670-1672; Scherf, et al, 2000, Nat Genet;24(3):236-44; Ross et al, 2000, Nat Genet. March 2000; 24(3):227-35), SNP analysis (Wang et al, 1998, Science, 280(5366):1077-82), drug discovery, pharmacogenomics, disease diagnosis (for example, utilising microfluidics devices: Chemical & Engineering News, Feb. 22, 1999, 77(8):27-36), toxicology (Rockett and Dix (2000), Xenobiotica, 30(2):155-77; Afshari et al., 1999, Cancer Res1;59(19):4759-60) and toxicogenomics (a hybrid of functional genomics and molecular toxicology). The goal of toxicogenomics is to find correlations between toxic responses to toxicants and changes in the nucleotide sequencetic profiles of the objects exposed to such toxicants (Nuwaysir, et al (1999), Molecular Carcinonucleotide sequencesis, 24:153-159).

In general, any library may be arranged in an orderly manner into an array, by spatially separating the members of the library. Examples of suitable libraries for arraying include nucleic acid libraries (including DNA, nucleotide sequence, oligonucleotide, etc libraries), peptide, polypeptide and protein libraries, as well as libraries comprising any molecules, such as ligand libraries, among others. Accordingly, where reference is made to a “library” such reference includes reference to a library in the form of an array.

The members of a library are generally fixed or immobilised onto a solid phase, preferably a solid substrate, to limit diffusion and admixing of the samples. In particular, the libraries may be immobilised to a substantially planar solid phase, including membranes and non-porous substrates such as plastic and glass. Furthermore, the samples are preferably arranged in such a way that indexing (i.e. reference or access to a particular sample) is facilitated. Typically the samples are applied as spots in a grid formation. Common assay systems may be adapted for this purpose. For example, an array may be immobilised on the surface of a microplate, either with multiple samples in a well, or with a single sample in each well. Furthermore, the solid substrate may be a membrane, such as a nitrocellulose or nylon membrane (for example, membranes used in blotting experiments). Alternative substrates include glass, or silica based substrates. Thus, the samples are immobilised by any suitable method known in the art, for example, by charge interactions, or by chemical coupling to the walls or bottom of the wells, or the surface of the membrane. Other means of arranging and fixing may be used, for example, pipetting, drop-touch, piezoelectric means, ink-jet and bubblejet technology, electrostatic application, etc. In the case of silicon-based chips, photolithography may be utilised to arrange and fix the samples on the chip. The samples may be arranged by being “spotted” onto the solid substrate; this may be done by hand or by making use of robotics to deposit the sample. In general, arrays may be described as macroarrays or microarrays, the difference being the size of the sample spots. Macroarrays typically contain sample spot sizes of about 300 microns or larger and may be easily imaged by existing gel and blot scanners. The sample spot sizes in microarrays are typically less than 200 microns in diameter and these arrays usually contain thousands of spots. Thus, microarrays may require specialised robotics and imaging equipment, which may need to be custom made. Instrumentation is described generally in a review by Cortese, 2000, The Scientist 14[11]:26.

Techniques for producing immobilised libraries of DNA molecules have been described in the art. Generally, most prior art methods describe how to prepare single-stranded nucleic acid molecule libraries, using for example masking techniques to build up various permutations of sequences at the various discrete positions on the solid substrate. U.S. Pat. No. 5,837,832 describes an improved method for producing DNA arrays immobilised to silicon substrates based on very large scale integration technology. In particular, U.S. Pat. No. 5,837,832 describes a strategy called “tiling” to prepare specific sets of probes at spatially-defined locations on a substrate which may be used to produced the immobilised DNA libraries of the present invention. U.S. Pat. No. 5,837,832 also provides references for earlier techniques that may also be used.

To aid detection, targets and probes may be labelled with any readily detectable reporter such as a fluorescent, bioluminescent, phosphorescent, radioactive reporter. Labelling of probes and targets is disclosed in Shalon et al., 1996, Genome Res 6(7):639-45.

The materials for use in the methods of the present invention are ideally suited for preparation of kits. A set of instructions will typically be included.

General Recombinant DNA Methodology Techniques

The present invention employs, unless otherwise indicated, conventional techniques of chemistry, molecular biology, microbiology, recombinant DNA and immunology, which are within the capabilities of a person of ordinary skill in the art. Such techniques are explained in the literature. See, for example, J. Sambrook, E. F. Fritsch, and T. Maniatis, 1989, Molecular Cloning: A Laboratory Manual, Second Edition, Books 1-3, Cold Spring Harbor Laboratory Press; Ausubel, F. M. et al. (1995 and periodic supplements; Current Protocols in Molecular Biology, ch. 9, 13, and 16, John Wiley & Sons, New York, N.Y.); B. Roe, J. Crabtree, and A. Kahn, 1996, DNA Isolation and Sequencing: Essential Techniques, John Wiley & Sons; M. J. Gait (Editor), 1984, Oligonucleotide Synthesis: A Practical Approach, Irl Press; and, D. M. J. Lilley and J. E. Dahlberg, 1992, Methods of Enzymology: DNA Structure Part A: Synthesis and Physical Analysis of DNA Methods in Enzymology, Academic Press. Each of these general texts is herein incorporated by reference.

In a specific embodiment of the invention, a cDNA microarray system representing 27, 648 genes was used to select a set of genes predicating the responsiveness to gefitinib for advanced NSCLC. Statistical analysis of the expression profiles identified dozens of genes differentially expressed between responders and non-responders to gefitinib. A drug response scoring (DRS) system based on the expression of these genes successfully predicted the response to gefitinib therapy.

Materials and Methods

Patients and Tissue Samples

A phase II clinical study was carried out comprising a multi-center trial to explore the dominant biological factors responsible for clinical anti-tumor effect, adverse drug reactions (ADR) and pharmacokinetics of ZD1839 dosed 250 mg daily in patients with advanced non-small-cell lung cancer who have failed previous chemotherapy. The primary endpoint was to clarify a gene-expression profile that could determine in advance a potential anti-tumor effect of gefitinib. At the start of the study, the sample size was estimated using studies conducted thus far as a rationale.^(12,13) Since the response rate for gefitinib has been less than 20% in patients with lung cancer,⁸⁻¹⁰ about 50 patients were estimated to be required to obtain learning cases estimated above. Patients whose locally advanced (stage IIIB) or metastasized (stage IV) NSCLCs were resistant to one or more regimens of conventional chemotherapy were enrolled in this trial. Inclusion criteria were (1) age greater than 20 years, (2) Performance Status (PS) 0-2, (3) adequate liver and kidney function tests. All patients were treated with 250 mg of gefitinib orally once a day at the Tokushima University or Kinki University hospitals in Japan. The treatment was continued until the patient was dropped from the study due to (1) progression of disease, (2) intolerable toxicity, or (3) withdrawal of consent.

Objective tumor responses were assessed every 4 weeks after the beginning of treatment, according to criteria outlined by the Union International Contre le Cancer/World Health Organization (UICC/WHO). Response categories were as follows: complete response (CR), no residual tumor in any evaluable lesion; partial response (PR), residual tumor with evidence of 50% or greater decrease under baseline in the sum of all measurable lesions, and no new lesions; progressive disease (PD), residual tumor with evidence of 25% or greater increase under baseline in the sum of all measurable lesions, or appearance of new lesions; and stable disease (SD), residual tumor not qualified for CR, PR, or PD. All evaluable lesions were measured bi-dimensionally (sum of products of longest diameter and its longest perpendicular of measurable lesions) using the same techniques as baseline, e.g. plain X-ray, CT, or MRI.

At the end of 4-month treatment (or withdrawal), the best overall response was evaluated for each patient based on definitions as follows: CR, patients who qualified for CR at two sequential examination points with an interval of at least 28 days between them; PR, patients judged as PR or better at two sequential examination points with an interval of at least 28 days between them; SD, patients who were SD or better at two sequential examination points at least 28 days apart but who did not qualify as CR or PR. The first judgment of an SD case must be done at or after the first tumor assessment point (28 days after randomization); PD, the patients determined as PD at or before the first tumor assessment point (28 days after randomization); Unknown, the patient does not qualify for a best response of increased disease, and all objective statuses after baseline (before randomization) and before progression are unknown.

Prior to the gefitinib treatment, tumor specimens were taken by trans-bronchial (TBB), skin, or lymph-node biopsy with written informed consent from each patient. Ethics approval was obtained from the ethics committee of the individual institutes. Biopsy samples were frozen immediately, embedded in TissueTek OCT medium (Sakura, Tokyo, Japan), and stored at −80° C. All samples were examined microscopically, and samples from 28 patients (17 learning and 11 test cases) that contained enough cancer cells for analysis of expression profiles were initially selected for further analysis. For validation of the prediction system, a blinded set of samples from 5 newly enrolled cases (4 PD and 1 SD) were also added to the 11 test cases. Clinical and histological information about these patients is summarized in Table 1-3.

Microdissection

In view of significant differences in the proportions of cancer cells and various types of parenchymal cells that are present from one tumor to another, microdissection is a necessary means of obtaining precise gene-expression profiles on cDNA microarrays. Therefore we stained 8 μm-thick frozen sections with hematoxylin and eosin and collected cancer cells selectively, using the μCUT laser-microbeam microdissection system (Molecular Machines & Industries AG, Glattbrugg, Switzerland).¹⁴ In this system tissue sections are mounted on a thin supporting polyethylene membrane that will be cut together with the target tissue; a pulsed-ultraviolet (UV) narrow-beam-focus laser cuts out cancer cells along a pre-selected track that can be observed on a video screen. The material to be extracted is never directly exposed to the laser but only circumscribed by it; unlike other LMM systems, this one allows recovery of dissected cells to proceed without radiation. Moreover, the membrane protects the tissue on the slide against cross-contamination. Using this system we were able to isolate small areas of tissue rapidly, and to isolate single cells from histological sections (FIG. 1).

RNA Extraction and T7-Based RNA Amplification

Total RNA was extracted from individual microdissected populations of cancer cells using RNeasy mini kits and RNase-free DNase kits (QIAGEN, Hilden, Germany) according to the manufacturer's protocols. Total RNAs were subjected to T7-based RNA amplification, as described previously.¹⁵ Two rounds of amplification yielded 40-200 μg of aRNA (amplified RNA) (>100,000-fold) from each sample. As a control probe, normal human lung poly(A)⁺RNA (BD Biosciences Clontech, Palo Alto, Calif. and BIOCHAIN, Hayward, Calif., USA) was amplified in the same way. Aliquots (2·5 μg) of mRNA from individual samples and from the control were reversely transcribed in the presence of Cy5-dCTP and Cy3-dCTP respectively.

cDNA Microarray

Our “genome-wide” cDNA microarray system contains 27,648 cDNAs selected from the UniGene database of the National Center for Biotechnology Information.¹⁵ Fabrication of the microarray, hybridization, washing, and detection of signal intensities were described previously.¹⁵ To normalize the amount of mRNA between tumors and controls, the Cy5/Cy3 ratio for each gene's expression was adjusted so that the averaged Cy5/Cy3 ratio of 52 housekeeping genes was equal to one. We assigned a cutoff value to each microarray slide using analysis of variance, and the Cy5/Cy3 ratio of the gene was calculated as follows: (1) if Cy5 (cancer sample) was lower than the cut off level, then the Cy5/Cy3 ratio of the gene was substituted by 2-5 percentile among the Cy5/Cy3 ratios of other genes whose Cy5 and Cy3 were higher than the cut off level; (2) if Cy3 (control sample) was lower than the cut off level, then the Cy5/Cy3 ratio of the gene was substituted by 97·5 percentile among the Cy5/Cy3 ratios of other genes whose Cy5 and Cy3 were higher than the cut off level; (3) if both Cy5 and Cy3 were lower than the cut off level, then the Cy5/Cy3 ratio of the gene was left blank.

Extraction of Genes for Predicting Responsiveness to Gefitinib

To discover genes that might be associated with sensitivity to gefitinib, individual measurements of about 27,648 genes were compared between the two groups of patients, one classified as responders to gefitinib (PR) and the other as non-responders (PD). To reduce the dimensionality of the number of potent genes that could discriminate between the two classes, we extracted only genes that fulfilled two criteria: 1) signal intensities were higher than the cut-off level in at least 60% of either group, and 2) 1 MED_(PR)−MED_(PD)|≦1, where MED indicates the median calculated from log-transformed relative expression ratios in each group. Then random-permutation tests were applied to estimate the ability of individual genes to distinguish between the two classes (PR and PD); mean (μ) and standard deviations (σ) were calculated from the log-transformed relative expression ratios of each gene in both groups. A discrimination score (DS) for each gene was defined as follows: DS=(μ_(PR)−μ_(PD))/(

_(PR)+σ_(PD)).

The samples were randomly permutated 10,000 times for each pair of groups. Since the DS dataset of each gene showed a normal distribution, we calculated a p-value for the user-defined grouping.

Calculation of Drug-Response Scores

We calculated the drug response scores for gefitinib (gefitinib response scores, or GRS) reflecting the expression levels of candidate prediction-genes according to procedures described previously.¹⁶⁻¹⁸ Each gene (gi) votes for either responder (PR) or non-responder (PD) depending on whether the expression level (xi) in the sample is closer to the mean expression level of one group or the other in reference samples. The magnitude of the vote (vi) reflects the deviation of the expression level in the sample from the average of the two classes: Vi=|xi−(μ_(PR)+μ_(PD))/2|.

We summed the votes to obtain total votes for responders (V_(PR)) and non-responders (V_(PD)), and calculated GRS values as follows: GRS=((V_(PR)−V_(PD))/(V_(PR)+V_(PD)))×100, where the GRS value reflects the margin of victory in the direction of either responder or non-responder. GRS values range from −100 to 100; the higher an absolute value of GRS, the stronger the prediction.

Cross-Validation of Scores and Evaluation of the Prediction System

The prediction scores of all samples were obtained by a leave-one-out approach, in which one sample at a time was removed from the sample set; permutational p-values and mean values of the two classes were calculated for each gene using the remaining samples. The drug-response of the withheld sample was predicted by calculating the prediction score.

These procedures were repeated for each sample.¹⁶⁻¹⁷

To evaluate the reliability of the prediction system, we calculated a “classification score” (CS) using the GRS values of responders and non-responders in each gene set, as follows: CS=(μ_(GRSpr)−μ_(GRSpd))/(

_(GRSpr)+

_(GRSpd)).¹⁷

A larger value of CS indicates better separation of the two groups by the prediction system.

Hierarchical Clustering

We used web-available software (“Cluster” and “TreeView”) written by M. Eisen (http://genome-www5.stanford.edu/MicroArray/SMD/restech.html) to create a graphic representation of the microarray data and to create a dendrogram of hierarchical clustering. Before the clustering algorithm was applied, the fluorescence ratio for each spot was first log-transformed and then the data for each sample were median-centered to remove experimental biases.

Semi-Quantitative RT-PCR Analysis

Aliquots (5·0 μg) of the same aRNA hybridized to the microarray slides from individual samples and from the normal control lung were reversely transcribed using oligo(dT)₁₂₋₁₈ primer and SuperScript II reverse transcriptase (Invitrogen, Carlsbad, Calif., USA). Semi-quantitative RT-PCR experiments were carried out with the following sets of synthesized primers specific to the 12 top-ranked genes used for establishing a GRS or with beta-actin (ACTB)-specific primers as an internal control: FLJ22662, 5′-GCCATAAGTGGTCCCACAGT-3′ and 5′-GTCTTCTAGTCCGTCATCTCCCT-3′; Amphiregulin (AREG), 5′-CCATAGCTGCCTTTATGTCTGC-3′ and 5′-CTTTTTACCTTCGTGCACCTTT-3′, coronin, actin binding protein, IC (COROIC), 5′-TAATCTGCTGAGGACCTTTTGTC-3′ and 5′-TAATTCACTGTCCTCTTCTGGGA-3′; apoptosis, caspase activation inhibitor (AVEN), 5′-GCTCACAGCAGTAAATGCCTA-3′ and 5′-TGCTATGCTGTAAACACTGGCTA-3′; dual specificity phosphatase 3 (DUSP3), 5′-GGATCCTTTATTGGTGGTAGAGC-3′ and 5′-CCAGAGTGACCCTGAAGATAAAT-3′; DJ473B4, 5′-ACCTGATTCTCTAGGTGCAGTTT-3′ and 5′-GTCGTTTCAACCAGGTAGTTTTG-3′; pleckstrin homology-like domain, family A, member 2 (PHLDA2), 5′-GGGCGCCTTAAGTTATTGGA-3′ and 5′-GGATGGTAGAAAAGCAAACTGG-3′; RNA binding motifprotein 7 (RBM7), 5′-TGTAATGGAGATTGTACAGGTTG-3′ and 5′-AGGAACAGTACAAATGCTGTGGT-3′; BX092512 (EST), 5′-GCACTCCTTGAAGGTACACTAAC-3′ and 5′-ATTTGTATTCACTCAGCCATGC-3′; oncostatin M receptor (OSMR), 5′-ACCCAACTTCAAAACTAGGACTC-3′ and 5′-ACAGCTTGATGTCCTTTCTATGC-3′, glutamate-cysteine ligase, catalytic subunit (GCLC), 5′-TCATGAAAGGCACTGAGTTTTG-3′ and 5′-GTTAGCTGAAGCAGCTTTATTGC-3′; collagen, type IV, alpha 3 binding protein (COL4A3BP), 5′-ATATGCACAATCCTGGAAGTGA-3′ and 5′-TGCCTTACTAGCATTACCACCAT-3′; ACTB, 5′-GAGGTGATAGCATTGCTTTCG-3′ and 5′-CAAGTCAGTGTACAGGTAAGC-3′. PCR reactions were optimized for the number of cycles to ensure product intensity within the logarithmic phase of amplification. We did phosphor imager quantification analysis (Molecular Imager FX: Bio-Rad Laboratories, Hercules, Calif., USA), and RT-PCR band intensities were quantitatively compared with normalized Cy5/Cy3 ratio of gene expression from the microarray data.

RT-PCR was performed to screen the mutation at entire region of codon 709-870 (from p-loop to activation loop) of EGFR which was recently reported as a hot spot of mutation,¹⁸ using three primer sets: fragment-1,5′-TCTTACACCCAGTGGAGAAGC-3′ and 5′-GTCTTTGTGTTCCCGGACAT-3′; fragment-2,5′-ACTATGTCCGGGAACACAAA-3′ and 5′-TTCCGTCATATGGCTTGG-3′; fragment-3,5′-CGTCGCTATCAAGGAATTAAGAG-3′ and 5′-GTAGCTCCAGACATCACTCTGGT-3′. RT-PCR products from 19 NSCLC patients treated with gefitinib were analyzed by direct sequencing.

Immunohistochemical Analysis

To confirm the differential expression of AREG and transforming growth factor-alpha (TGFA) proteins, both of which encode the ligand for EGFR and other ERBB members, and other 3 candidate markers (a disintegrin and metalloproteinase domain 9 (ADAM9), D9 antigen (p24), and OSMR), which are also known to relate to the EGFR signalling, for predicting responders vs non-responders to gefitinib, we stained clinical tissue sections obtained by fiberscopic transbronchial biopsy (TBB) and lymph-node biopsy using ENVISION+ Kit/HRP (DakoCytomation, Glostrup Denmark). Briefly, after endogenous peroxidase and protein blocking reactions, anti-human AREG polyclonal antibody (Neo Markers, Fremont, Calif., USA), anti-human TGFA monoclonal antibody (Calbiochem, Darmstadt, Germany), anti-human ADAM9 monoclonal antibody (R&D Systems Inc. Minneapolis, Minn., USA), anti-human CD9 monoclonal antibody (Novocastra Laboratories Ltd, Newcastle upon Tyne, UK), or anti-human OSMR monoclonal antibody (Santa Cruz Biotechnology, Inc., Santa Cruz, Calif., USA), was added, and then HRP-labeled anti-rabbit or anti-mouse IgG as the secondary antibody. Substrate-chromogen was then added and the specimens were counterstained with hematoxylin.

Frozen tissue samples from 11 patients were selected for analysis of immunohistochemistry. Positivity of immunostaining was assessed semi-quantitatively by scoring intensity as absent or positive by three independent investigators without prior knowledge of the clinical follow-up data. Cases were accepted only as positive if reviewers independently defined them thus.

ELISA

Serum was obtained from an independent set of 35 lung-ADC patients who were treated with gefitinib based on the same protocol as this clinical study at Hiroshima University hospital in Japan (5 for PR, 10 for SD, and 20 for PD). The sera of all the patients were obtained with informed consent at the time of diagnosis and every 4 weeks after the beginning of treatment, and stored at −80° C. The serum TGFA levels were measured by an ELISA using a commercially available enzyme test kits (TGF-alpha ELISA kit: Oncogene Rsearch Products, San Diego, Calif., USA).

In Vitro Gefitinib Treatment and AREG-Autocrine Assay

Human NSCLC (adenocarcinoma) cell lines PC-9, NCI-H358, and NCI-H522 were purchased from the American Type Culture Collection (ATCC; Rockville, Md., USA). To detect expression of AREG in these NSCLC cells, total RNA from each line was reverse-transcribed for single-stranded cDNAs using oligo(dT)₁₂₋₁₈ primer and Superscript II (Invitrogen). Semi-quantitative reverse transcriptase-PCR (RT-PCR) was carried out as described previously.¹⁴ gefitinib (4-(3-chloro-4-fluoroanilino)-7-methoxy-6-(3-morpholinopropoxy)quinazoline: ZD 1839, Iressa), an inhibitor of epidermal growth factor receptor tyrosine kinase, was provided by AstraZeneca Pharmaceuticals (Macclesfield, UK). The drug was dissolved in DMSO at a concentration of 10 mM and kept at −20° C.

We performed flow-cytometry to determine the sensitivity of lung adenocarcinoma cell lines to gefitinib treatment. Cells were plated at densities of 5×10 cells/100-mm dish and treated with 1·0 μM of gefitinib in appropriate serum-free medium. The cells were trypsinized 72 hours after the treatment, collected in PBS, and fixed in 70% cold ethanol for 30 min. After treatment with 100 μg/ml RNase (Sigma-Aldrich Co., St. Louis, Mo., USA), the cells were stained with 50 μg/ml propidium iodide (Sigma-Aldrich Co.) in PBS. Flow cytometry was performed on a Becton Dickinson FACScan and analyzed by ModFit software (Verity Software House, Inc., Topsham, Me., USA). The percentages of nuclei in G0/G1, S, and G2/M phases of the cell cycle and sub-G1 population were determined from at least 20,000 ungated cells.

To investigate whether AREG functions as an autocrine anti-apoptotic factor in lung adenocarcinoma cells treated with gefitinib, we carried out the following assay. First, gefitinib-sensitive PC-9 cells, which do not express AREG, were cultured in serum-free medium for at least 8 hours prior to gefitinib treatment. These cells were then incubated with 0·5 or 1·0 μM of gefitinib for 72 hours in media that were either serum-free or supplemented with 10% FCS, or in serum-free conditioned medium collected from 72-hour cultures of AREG-expressing cells (NCI-H358 or NCI-H522). Each medium was replaced once with the same medium containing gefitinib at the 48-hour time point. To detect the response of each cell line to gefitinib, viability was evaluated by MTT assays using Cell Counting Kits (WAKO, Osaka, Japan).

To confirm the autocrine effect of AREG on the gefitinib-resistance of NSCLC cells, we cultured PC-9 cells for 72 hours in serum-free medium containing 1·0 μM of gefitinib and recombinant AREG protein (Genzyme-Techne, Minneapolis, Minn., USA) in final concentrations of 1-100 ng/ml. Cell viability was evaluated by MTT assays. A possible effect of AREG itself on the viability of NSCLC cells was evaluated also, by culturing the PC-9 cells in serum- and gefitinib-free medium containing only recombinant AREG protein. MTT assays were performed as above.

Results

Response to Gefitinib Treatment

Of the 53 patients enrolled in this trial, 46 had tumors diagnosed as adenocarcinomas (86·8%); five were squamous-cell carcinomas (9·4%); two were large cell carcinomas (3·8%). Fifteen patients achieved a PR and nobody revealed a CR; 17 patients were classified as SD, and 19 as PD. No clinical-response data were available for two of the patients. The tumor-response rate (CR+PR/CR+PR+SD+PD) for this treatment was 29·4%, and the disease control rate (CR+PR+SD/CR+PR+SD+PD) was 62·8% (table 1).

Tumor samples were collected from 43 patients. Samples from 32 of those 43 contained sufficient numbers of cancer cells for analysis of expression profiles on our cDNA microarray. The numbers of samples that were judged to be suitable for further microarray analysis, were 8 for PR, 7 for SD, and 13 for PD (table 2). 17 of the 28 samples were analyzed as learning cases (7 for PR and 10 for PD), and 11 were as test cases (1 for PR, 3 for PD, and 7 for SD) for establishing a predictive scoring system for the efficacy of gefitinib treatment. For further validation of the prediction system, another blinded set of samples from 5 newly enrolled test-cases (4 for PD and 1 for SD) were obtained and added finally to the initial 11 test cases above.

Identification of Genes Associated with Sensitivity to Gefitinib

We attempted to extract genes that were differentially expressed between tumors from seven patients in the PR group (defined as responders) and those from 10 patients in the PD group (defined as non-responders) by comparing expression levels of 27,648 genes. (tables 2, 3).

We carried out a random-permutation test to distinguish between the two subclasses defined by tumor response, and identified 51 genes whose permutational p-values were less than 0·001 (table 4). Expression levels of 40 genes were higher, and those of the other 11 were lower, in the non-responders.

Establishment of a predictive scoring system for the efficacy of gefitinib treatment Based on the expression profiles of the 51 genes selected above, we tried to establish a predictive scoring system for the efficacy of gefitinib treatment. Prediction scores, termed gefitinib response score (GRS), were calculated according to procedures described previously (see Methods). To determine the number of candidates that provided the best separation of the two groups, we ranked the 51 genes on the basis of the significance of their permutational p-values and calculated prediction scores by the leave-one-out test, in decrements of 1 starting from the bottom of the rank-ordered list (51, 50, 49, 48 etc.). We calculated a classification score (CS), a standard we had previously defined for evaluation of the ability to discriminate two classes, for each set of genes.¹⁷

As shown in FIG. 2A, we obtained different prediction scores when the number of discriminating genes was changed. We obtained the best CS, meaning the best separation of responders from non-responders, when we calculated the scores using only the 12 top-ranked genes in our candidate list.

Hierarchical clustering analyses using all 51 genes, or only the top 12, classified all 17 cases into one of two groups according to the response to gefitinib (FIG. 2, B). The two groups were most clearly separated when we used the top 12 genes for cluster analysis. Finally, we established a numerical drug-response-scoring algorithm that might be clinically applicable for predicting sensitivity of an individual NSCLC to gefitinib, on the basis of expression levels of the 12 selected genes.

To validate this prediction system we investigated 8 additional (“test”) NSCLC cases (1 for PR and 7 for PD) that were completely independent of the 17 “learning” cases used for establishing the system. We examined gene-expression profiles in each of those samples and then calculated GRS on the basis of the expression levels of the 12 discriminating genes. As shown in FIG. 2C, scores obtained by the GRS system were concordant with the clinical responses to gefitinib in all eight “test” cases.

GRS Values for Patients with SD in Tumor Response

GRS values for the eight test-SD patients were calculated according to the predictive scoring system established above. Although the values were widely distributed from −83·0 (predicted as non-responder) to 61·6 (responder), the scores of patients who retained SD status throughout the observation period were likely to be higher than those of patients who had been judged as SD at a certain time-point of the study but showed progression of the disease within three or four months after the start of treatment (FIG. 2, C). Although the GRS system was established on the basis of gene-expression profiles that distinguished between patients with PR and patients with PD (without SD) in tumor response, these results suggest that the GRS serves in classifying SD patients into groups according to their response to gefitinib.

Validation of GRS with Semi-Quantitative RT-PCR Analysis

To confirm differential expression of the top 12 predictive genes between PR and PD cases, expression values derived from microarray data were correlated with values from semi-quantitative RT-PCR of RNAs from the same patients (5 PR and 7 PD) (FIG. 3, A, table 5, A). Spearman rank correlations were positive for all of the 12 genes and significantly positive for seven of 12 genes.

Immunohistochemical Validation of GRS

To validate differential expression of the predictive protein markers between PR and PD cases, we carried out immunohistochemical staining with five different antibodies for AREG, TGFA, ADAM9, CD9, and OSMR, all of which were known to be involved in the ligand-EGFRs signalling and whose permutational p-values were less than 0·01. We first stained paired tumor tissue sections obtained by TBB and lymph-node biopsy from the same patients using these 5 antibodies. No intra-patient differences on protein expression of these five markers were observed in three different patients (FIG. 3, B). We also validated the microarray data with the five markers in 11 NSCLC samples (5 for PR and 6 for PD). The results were consistent with the microarray data (FIG. 3, C, table 5, B).

Serum Levels of TGFA

To further evaluate the availability of the prediction system in routine clinical situations, we detected TGFA protein using ELISA in serum samples from 5 PR, 10 SD, and 20 PD patients that were independently collected for serological test and were not enrolled in microarray analysis. The serum levels of TGFA were 19·0±2·8 pg/ml (mean±SE) in PD patients, 13·9±1·9 pg/ml in SD patients, and 12·8±1·4 pg/ml in PR patients (FIG. 4). Twelve of 20 serum samples from PD patients were positive for TGFA and all samples from PR patients were negative, when 16·0 pg/ml was used as a cutoff.

In Vitro Gefitinib Treatment and AREG-Autocrine Assay

AREG, a ligand for EGFR and other ERBB members was significantly over-expressed in non-responders but not (or hardly) detectable in responders. To investigate whether AREG protein leads to resistance of NSCLCs to gefitinib therapy when it is secreted in an autocrine manner, we performed the following biological analyses. We initially identified expression of AREG mRNA in lung-adenocarcinoma cell lines NCI-H358 and -H522, but not in PC-9, by means of RT-PCR experiments (FIG. 5, A). Next, we performed flow-cytometric analysis 72 hours after treatment of PC-9 cells with 1·0 μM of gefitinib, and found that gefitinib increased the percentages of nuclei in sub-G1 (24%) compared with cells with no treatment (6%) (data not shown). This result suggested that gefitinib might induce apoptosis in PC-9 cells.

We then analyzed the viability of PC-9 cells, which are gefitinib-sensitive and do not express AREG, after culture in serum-free medium or in serum-free, conditioned medium obtained from NCI-H358 or -H522 cells grown in the presence or absence of 0·5 or 1·0 μM of gefitinib. As shown in FIG. 5B, the viability of PC-9 cells incubated in the serum-free, conditioned medium containing gefitinib was greater than that of PC-9 cells grown in serum-free medium with the same concentrations of gefitinib. As the supplier of gefinitib has reported previously, the anti-tumor effect of gefitinib decreases in the presence of 10% FCS, suggesting that this assay should be suitable for quantitative measurement of gefitinib dosage and activity.

To investigate whether AREG, secreted in an autocrine manner, inhibits apoptosis of NSCLC cells treated with gefitinib, we cultured PC-9 cells in serum-free medium containing recombinant AREG protein at final concentrations of 1-100 ng/ml, in the presence or absence of 1·0 μM gefitinib. The viability of PC-9 cells incubated with both AREG and 1·0 μM gefitinib was increased in comparison to cells incubated with 1·0 μM gefitinib only, in an AREG-dose-dependent manner (FIG. 5, C). On the other hand, recombinant AREG alone had no effect on the viability of PC-9 cells (FIG. 5, C). This observation appeared to indicate that AREG inhibits the apoptosis induced by gefitinib, but does not in itself affect cell viability. Immunostaining for AREG is shown in FIG. 6.

Discussion

A large body of evidence supports the view that molecules in the EGFR autocrine pathway are involved in a number of processes important to cancer formation and progression, including cell proliferation, angiogenesis, and metastatic spread.⁵ Therapeutic blockade of specific signalling, therefore, could be a promising strategy for cancer treatment. Gefitinib, a synthetic anilinoquinazoline, inhibits the tyrosine kinase activity of EGFR by competing with adenosine triphosphate for a binding site on the intracellular domain of the receptor.⁷ In phase II trials (IDEAL 1 and IDEAL 2), use of gefitinib as a 2nd-, 3rd-, or 4th-line monotherapy for advanced NSCLC achieved tumor-response rates of nearly 20%,⁸⁻¹⁰ which were superior to those achieved with conventional cytotoxic agents. Multivariate analysis of patients in the IDEAL 1 study suggested that the response rate in females might be higher than in males, and higher in patients with adenocarcinomas than in patients with squamous-cell carcinomas (odds ratios 2·7 and 3·5 respectively).⁹ Recent study suggested that individuals in whom gefitinib is efficacious are more likely to have adenocarcinomas of the bronchioloalveolar subtype and to be never smokers (odds ratios 13·5 and 4·2 respectively).¹⁹ The higher tumor-response rate (29·4%) documented in the clinical trial reported here might reflect a higher proportion of patients with adenocarcinoma (46 adenocarcinomas, five squamous-cell carcinomas and two large-cell carcinomas) than has been the case in other studies. The clinicopathological determinants of gefitinib sensitivity including bronchioloalveolar carcinoma (BAC) features are predictve to a certan extent,^(9,10,19,20) however, previous reports and our observations obviously suggest that no factors can perfectly predict the response of NSCLC to gefitinib treatment. Therefore novel methods to discriminate responders from non-responders in advance could allow a more focused use of gefitinib in clinical settings.

By statistical analysis of gene-expression profiles of advanced NSCLCs obtained on cDNA microarrays, we identified dozens of genes associated with sensitivity to gefitinib. We introduced a prediction-scoring system based on expression of the 12 genes that had shown the most significant differences in expression levels between responder (PR) and non-responder (PD) groups. This set of genes was selected from expression profiles of lung adenocarcinomas; however, the GRS system successfully classified all eight of our “test” PR and PD cases in accord with their clinical responses to gefitinib, and one of them was a squamous-cell carcinoma. Moreover, this system was likely to separate intermediate tumor responses (SD) into two groups, one representing patients who succeeded in maintaining the tumor-static effect for a long period and the other representing patients who failed to do so.

In practical terms, we need to predict the chemosensitivity of individual tumors using the minimally invasive techniques available at every hospital, because patients with advanced NSCLCs are rarely candidates for surgical resection of their tumors. Therefore we have tried to establish a prediction system that requires only the amount of cancerous tissue that can be obtained by, for example, flexible bronchofiberscopy. By verifying individual steps of the method, we were able to precisely profile gene expression in biopsy specimens as small as 1 mm. Relevant microarray results were confirmed by semi-quantitative RT-PCR for 12 genes that showed the most significant differences to establish a GRS system. Furthermore, we validated the effectiveness of antibodies for 5 different biomarkers (AREG, TGFA, ADAM9, CD9, and OSMR), all of which were reported to be involved in the ligand-EGFR signalling, for discriminating potential responders from non-responders, in both TBB and lymph-node biopsy samples. Moreover, we were able to detect serum TGFA proteins in lung-ADC patients by ELISA. Further evaluation of these markers for clinical use are necessary, however, the limited number of genes required for prediction should eventually enable laboratories to diagnose in advance the efficacy of gefitinib treatment for an NSCLC patient, using routine procedures such as serological examinations of blood, PCR experiments, or immunohistochemical analysis of biopsy specimens.

To our knowledge, this is the first report about gene-expression profiles of unresectable “advanced” lung cancers, although profiles of surgically resected specimens of “early” lung cancers have been reported.^(21,22) However, about 70% of tumors in patients diagnosed with NCSLC are already locally advanced or metastatic, which generally renders them resistant to conventional therapeutic modalities. Therefore the genes listed here should be useful for disclosing molecular mechanisms of lung-cancer progression and may be potential targets for drug development.

Gefitinib was developed as a “selective” inhibitor of EGFR-TK; however, no clear association between the level of EGFR activation and response to gefitinib has been found in vitro or in vivo.^(7,23) In clinical trials, gefitinib has been more effective against adenocarcinomas than against squamous-cell carcinomas,^(9,10) although over-expression of EGFR is less frequent in adenocarcinomas.²⁴ Therefore, it is important to identify which individual tumors are good targets for this treatment. In our analysis using clinical samples, the difference in EGFR protein expression between responders and non-responders were not statistically significant. On the other hand, amphiregulin (AREG) and transforming growth factor alpha (TGFA), both of which encode the ligand for EGFR and other ERBB members, were significantly over-expressed in non-responders but not (or hardly) detectable in responders p=0·0000000000093 and 0·0095 respectively; table 4).

The significance of the ligands and the EGFR autocrine loop in growth and survival of lung-cancer cells is indisputable,²⁴⁻²⁶ but the role of AREG in formation and progression of cancers is poorly understood. However, several lines of evidence suggest that over-expression of AREG is associated with shortened survival of patients with NSCLC.²⁴ Moreover, anti-apoptotic activity of AREG in human lung-adenocarcinoma cells was reported recently.²⁵ To investigate whether the anti-apoptotic activity of AREG leads to resistance of NSCLC cells to gefitinib therapy, we performed a biological assay using a gefitinib-sensitive but AREG-non-expressing NSCLC cell line, PC-9. We found that the anti-tumor activity of gefitinib on PC-9 cells was dramatically decreased by autocrine secretion of AREG. This evidence strongly suggests that although growth-factor signalling by the EGFR is markedly complicated at every step because of the multiplicity of ligands, dimerization partners, effectors, and downstream pathways,²⁶ AREG might be a principal activator of the ligands-receptor autocrine growth pathway that leads to cancer progression and resistance to gefitinib.

Several elements associated with the EGFR-TK pathway are present on our list of differentially-expressed genes. For example, genes encoding dual specificity phosphatase 3 (DUSP3), ADAM9, CD9, and OSMR were expressed predominantly in non-responders (p=0·00000000094, 0·01, 0·000022, and 0.0000011, respectively). DUSP3 gene modulates EGFR signalling by dephosphorylating mitogen activated protein kinase (MAPK), a key mediator of signal transduction,²⁷ and ADAM9 is involved in activation of EGFR signalling by shedding the ectodomain of proHB-EGF (pro Heparin-binding epidermal growth factor-like growth factor).²⁸ CD9 physically interacts with transmembrane TGFA. CD9 expression strongly decreases the growth factor- and PMA-induced proteolytic conversions of transmembrane to soluble TGFA and strongly enhances the TGFA-induced EGFR activation.²⁹ OSMR is reported to be constitutively associated with ERBB2 in breast cancer cells.³⁰ Although other target molecules for gefitinib have been suggested, our results suggest that EGFR signalling is at least one of the important processes involved in response to this drug.

Since gefitinib can induce apoptosis of some cancer cells in vivo, other molecules with anti-apoptotic activity, as well as AREG, may contribute to a tumor's resistance to the drug. AVEN (apoptosis, caspase-activation inhibitor), which was specifically expressed in our non-responders (p=0·00000000042), is known to enhance the anti-apoptotic activity of Bcl-xL and to suppress Apaf-1-mediated caspase activation.³¹ On the other hand, mechanisms regulating drug transport should also affect drug resistance. GCLC (glutamate-cysteine ligase, catalytic subunit), which plays an important role in cellular detoxification of anticancer drugs such as cisplatin, etoposide and doxorubicin,³² was over-expressed in our group of non-responders (p=0·00000012). As these genes correlated negatively with responses to chemotherapy in our panel of tumors (i.e. the higher the expression of these genes, the greater the resistance to gefitinib), they might be involved in the mechanism(s) leading to that resistance. It should be noted also that the functions of nearly half of our candidate prediction-genes are unknown. Therefore further investigations will be needed to reveal more clearly the biological events underlying responses of NSCLCs to gefitinib.

In summary, we identified 51 genes whose expression differed significantly between responders and non-responders to gefitinib among human lung carcinomas, and established a numerical scoring system, based on expression patterns of 12 of those genes, to predict the response of individual tumors to this drug. Although further validation using a larger set of clinical cases will be necessary, the data presented here may yield valuable insights into the molecular events underlying signal-suppressing strategies and provide important information about gefitinib treatment for individual NSCLC patients by testing a set of genes with high predictive values.

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31. Tipnis, S R., et al., Overexpression of the regulatory subunit of r-glutamylcysteine synthetase in Hela cells increases r-glutamylcysteine synthetase activity and confers drug resistance. Biochem J 1999. 337, p. 559-566. TABLE 1 Summary of baseline patient characteristics and response Characteristics Percentage (%) Number of Patient Sex male 58.5 (31) female 41.5 (22) Age median 59 range 35-80 Histology adenocarcinoma 86.8 (46) squamous cell carcinoma 9.4  (5) large cell carcinoma 3.8  (2) Stage IIIA 1.9  (1) IIIB 7.5  (4) IV 90.6 (48) Performance Status 0 26.4 (14) 1 60.4 (32) 2 13.2  (7) Number of Prior Regimen 1 24.5 (13) 2 35.9 (19) 3 28.3 (15) 4 0  (0) 5 7.5  (4) 6 3.8  (2) Response to Gefitinib Therapy CR 0  (0) PR 28.3 (15) SD 32.1 (17) PD 35.8 (19) unknown 3.8  (2) Tumor Response Rate (

29.4 (15) (CR + PR/CR + PR + SD + PD) Disease Control Rate (%) 62.8 (32) (CR + PR + SD/CR + PR + SD + PD)

TABLE 2 Number of cases suitable for analysis and their best overall responses Best Overall Response Number of Cases PR SD PD Unknown Total All cases enrolled 15 17 19 2 53 Cases that consented to the 15 14 13 1 43 study Cases suitable for analysis 8 10 13 1 32 Learning cases (1) 7 0 10 0 17 Test cases (1,2) 1 7 3 0 11 (1) Learning cases were used for developing the GRS, whereas test cases were used for validation of the (2) Another blinded set of samples from 5 newly enrolled cases (4 PD and 1 SD) were also added to these 11 test cases later.

TABLE 3 Clinicopathological features of patients Number of EGFR Stained Case Histology Stage Previous Tumour Cell EGFR No. (*) Sex Age Type (1) T N M Classification (2) Chemotherapy (%) mutation (3) LC01 female 36 ADC 1 0 1 IV 1 None detected LC02 male 64 ADC 2 3 1 IV 3 80 LC03 female 54 ADC 2 0 1 IV 3 80 LC04 female 75 ADC 2 1 1 IV 1 20 None detected LC05 female 73 ADC 0 2 1 IV 5 30 46 A750del (2481 2495

LC06 female 75 ADC 4 1 1 IV 3 None detected LC07 female 70 ADC 2 1 1 IV 3 80 47_A750del (2485_2496d LC08 female 47 ADC 4 3 1 IV 2 95 L858R (2819T > G) mean (range) 62 2.6 (1-5) 64 (20-95) (36-75) LC09 female 63 ADC 4 0 1 IV 3 90 LC10 male 56 ADC 2 0 1 IV 6 70 LC11 male 67 ADC 4 0 1 IV 2 0 LC12 male 53 ADC 4 3 1 IV 2 None detected LC13 female 56 ADC 4 2 0 IIIB 2 40 LC14 female 62 ADC 4 2 1 IV 3 60 LC15 male 61 ADC 0 0 1 IV 5 60 mean (range) 60 3.3 (2-6) 53 (0-90) (53-67) LC16 male 42 ADC 4 3 1 IV 5 90 None detected LC17 female 54 ADC 2 3 1 IV 2 50 None detected LC18 female 61 ADC 1 3 0 IIIB 2 None detected LC19 male 59 ADC 0 2 1 IV 2 30 W817C (2697G > T) LC20 male 65 ADC 0 3 1 IV 3 None detected LC21 male 55 ADC 4 3 1 IV 3 80 None detected LC22 male 80 ADC 4 3 1 IV 2 80 Q787Q (2607G > A) LC23 male 35 ADC 4 0 1 IV 5 None detected LC24 male 57 ADC 4 3 1 IV 1  0 None detected LC25 female 65 ADC 2 0 1 IV 1 None detected LC26 male 64 SCC 3 3 1 IV 2 None detected LC27 female 65 ADC 4 2 1 IV 1 L858R (2819T > G) LC28 male 74 ADC 2 1 1 IV 1 10 mean (range) 60 2.3 (1-5) 49 (0-90) (35-80) Plasma Gefitinib Response to Gefitinib(4) Use for Case Concentration 1st 2nd 3rd 4th Best Overall Prediction No. (*) Sex Age (ng/ml) month month month month Response (5) (6) GRS (7) LC01 female 36 258.9 PR PR PR PR PR learning 100 LC02 male 64 140.3 PR PR PR PR PR learning 100 LC03 female 54 167.0 PR PR PR PR PR learning 100 LC04 female 75 169.7 PR PR PR PR PR learning 100 LC05 female 73 300.6 PR PR PR PR PR learning 100 LC06 female 75 874.0 SD PR PR PR PR learning 100 LC07 female 70 460.8 SD PR PR PR PR learning 100 LC08 female 47 306.5 PR PR PR PR PR test 54.8 mean (range) 62 334.7 (36-75) (140.3-874.0) LC09 female 63 743.4 SD SD SD SD SD test 61.6 LC10 male 56 511.8 SD SD SD SD SD test −9.8 LC11 male 67 631.3 SD SD SD SD SD test −5.3 LC12 male 53 306.1 SD SD SD PD SD test −23.8 LC13 female 56 364.8 SD SD PD SD test −58.5 LC14 female 62 322.4 SD SD PD SD test −83 LC15 male 61 278.9 SD SD PD SD test −40.5 mean (range) 60 451.2 (53-67) (278.9-631.3) LC16 male 42 212.6 SD PD PD learning −63.9 LC17 female 54 320.6 SD PD PD learning −86 LC18 female 61 229.3 SD PD PD learning −67.8 LC19 male 59 150.7 SD PD PD learning −57.1 LC20 male 65 167.8 SD PD PD learning −59.1 LC21 male 55 PD PD learning −73.1 LC22 male 80 PD PD learning −55.5 LC23 male 35 PD PD learning −100 LC24 male 57 PD PD learning −46.7 LC25 female 65 356.3 PD PD learning −86.1 LC26 male 64 405.6 SD PD PD test −67.7 LC27 female 65 PD PD test −69.4 LC28 male 74 PD PD test −64.8 mean (range) 60 263.2 (35-80) (150.7-405.6) (1) ADC, adenocarcinoma; SCC, squamous-cell carcinoma. (2) TNM clinical classification and stage grouping were assessed based on the UICC/WHO classification. (3) Mutation at codon position 709-870 (from p-loop to activation loop) of EGFR (GenBank Accession No. NM005228). (4) Objective Tumor Response to Gefitinib was assessed every 4 weeks after the start of treatment using UICC/WHO Criteria. PR, partial response; SD, stable disease; PD, progressive disease (5) Overall Best Response was evaluated based on the definitions as mentioned in materials and methods. (6) learning, samples used for developing the GRS; test, samples used for validation of the GRS. (7) GRS: gefitinib response score determined by prediction system (*) For further validation of the GRS, another blinded set of samples from 5 newly enrolled cases (4 PD and 1 SD) were also added to these 28 cases later.

TABLE 4 List of 51 candidate genes for discriminating responder (PR) from non-responder (PD) to gefitinib (*) Median-fold Rank Predominantly Permutational Difference Or

GenBank Symbol Gene Name Expressed Clas p-value (log2) 1 NM_0248

FLJ2266

hypothetical protein FLJ22662 PD 8.1E−12 2.0 2 BC009799 AREG amphiregulin (schwannoma-derived growth factor) PD 9.3E−12 8.0 3 NM_0143

CORO1C coronin, actin binding protein, 1C PD 2.3E−10 4.6 4 BC010488 AVEN apoptosis, caspase activation inhibitor PD 4.2E−10 4.3 5 NM_0040

DUSP3 dual specificity phosphatase 3 (vaccinia virus phosphatase VH1-rel

PD 9.4E−10 4.4 6 AI026836 DJ473B4 hypothetical protein dJ473B4 PD 1.7E−09 8.0 7 BU500509 PHLDA2 pleckstrin homology-like domain, family A, member 2 PD 1.8E−09 8.0 8 NM_0160

RBM7 RNA binding motif protein 7 PD 1.8E−08 2.9 9 BX092512 EST PD 7.7E−08 3.0 10 AI436027 OSMR oncostatin M receptor PD 1.1E−07 3.7 11 AI971137 GCLC glutamate-cysteine ligase, catalytic subunit PD 1.2E−07 3.9 12 BQ02487

COL4A3

coltagen, type IV, alpha 3 (Goodpasture antigen) binding protein PD 2.0E−07 3.6 13 U52522 ARFIP2 ADP-ribosylation factor interacting protein 2 (arfaptin 2) PD 2.6E−07 2.8 14 BM99605

C10orf9 chromosome 10 open reading frame 9 PD 4.2E−07 2.6 15 AK025452 NIP30 NEFA-interacting nuclear protein NIP30 PD 5.1E−07 3.7 16 N52048 KIAA077

KIAA0776 protein PD 5.4E−07 7.2 17 AA507009 SLC35F2 solute carrier family 35, member F2 PD 6.0E−07 5.8 18 AA226243 GAMLG calcium modulating ligand PD 6.8E−07 5.0 19 AF005888 NOC4 neighbor of COX4 PD 1.1E−06 4.0 20 AF012281 PDZK1 PDZ domain containing 1 PD 1.3E−06 4.5 21 AI188190 DIS3 mitotic control protein dis3 homolog PD 1.7E−06 3.8 22 BC001535 CGI-48 CGI-48 protein PD 2.0E−06 3.5 23 NM_0070

CPSF6 cleavage and polyadenylation specific factor 6, 68 kDa PD 2.2E−06 3.4 24 NM_0022

KIF3C kinesin family member 3C PD 2.2E−06 3.5 25 BQ135232 CD9 CD9 antigen (p24) PD 2.2E−06 1.7 26 BC051322 LRRC8 leucine rich repeat containing 8 PD 2.5E−06 3.4 27 BC03850

SNF1LK SNF1-like kinase PD 2.6E−06 2.8 28 U78556 CRA cisplatin resistance associated PD 2.7E−06 3.7 29 BC035625 EGR2 early growth response 2 (Krox-20 homolog, Drosophila) PD 3.4E−06 3.0 30 X52426 KRT13 keratin 13 PD 1.9E−05 3.4 31 NM_0055

BCAT1 branched chain aminotransferase 1, cytosolic PD 2.3E−05 1.7 32 NM_0066

SDCCAG serologically defined colon cancer antigen 3 PR 2.6E−05 3.7 33 AA46409

PIGK phosphatidylinositol glycan, class K PD 3.2E−05 1.1 34 AA96118

MRPS9 mitochondrial ribosomal protein S9 PD 9.8E−05 2.3 35 NM_0181

ASPM asp (abnormal spindle)-like, microcephaly associated (Drosophila) PR 2.3E−04 2.8 36 NM_0227

ACBD3 acyl-Coenzyme A binding domain containing 3 PD 2.4E−04 3.8 37 AA160544 ZNF325 zinc finger protein 325 PR 2.7E−04 4.5 38 AK05765

LOC2855 hypothetical protein LOC285513 PD 2.7E−04 3.8 39 NM_0033

TSSC1 tumor suppressing subtransferable candidate 1 PD 2.9E−04 4.7 40 BC007451 XAB1 XPA binding protein 1 PD 3.0E−04 1.3 41 BC03546

HNLF putative NFkB activating protein HNLF PR 3.5E−04 1.1 42 CK00409

EIF4EBP eukaryotic translation initiation factor 4E binding protein 2 PR 3.6E−04 1.4 43 NM_1446

MGC232

hypothetical protein MGC23280 PR 4.2E−04 2.3 44 NM_0046

SSA2 Sjogren syndrome antigen A2 (60 kDa, ribonucleoprotein autoantige PR 4.2E−04 1.2 45 NM_0027

PRKACA protein kinase, cAMP-dependent, catalytic, alpha PR 5.0E−04 1.2 46 NM_0051

FEZ2 fasciculation and elongation

rotein zeta 2 (zygin II) PD 6.1E−04 3.3 47 NM_0058

SRRM1 serine/arginine repetitive matrix 1 PR 7.0E−04 1.4 48 NM_0062

PDGFRL platelet-derived growth factor receptor-like PD 7.0E−04 2.4 49 AI096936 SNX13 sorting nexin 13 PR 8.4E−04 1.6 50 NM_0147

KIAA025

KIAA0258 gene product PD 8.9E−04 2.5 51 BF973104 TOM7 homolog of Tom7 (S. cerevisiae) PR 1.0E−03 1.5 (*) The 12 and 51 gene sets were listed as the rank-order of permutational p-values that were less than 0.001.

TABLE 4 A List of 132 Candidate Genes for Discriminating Responder (PR) from Non-responder (PD) to Gefitinib Rank GenBank Gene Order ID Symbol Gene Name Nucleotides 1 NM_024829 FLJ22662 hypothetical protein ATACGGCATCCATGAAATATAT FLJ22662 CATGCGATACAACAATTATAAG AAGGATCCTTACAGTAGAGGTG ACCCCTGTAATACCATCTGCTG CCGTGAGGACCTGAACTCACCT AACCCAAGTCCTGGAGGTTGTT ATGACACAAAGGTGGCAGATAT CTACCTAGCATCTCAGTACACA TCCTATGCCATAAGTGGTCCCA CAGTACAAGGTGGCCTCCCTGT TTTTCGCTGGGACCGTTTCAAC AAAACTCTACATCAGGGCATGC CAGAGGTCTACAACTTTGATTT TATTACCATGAAACCAATTTTG AAACTTGATATAAAATGAAGGA GGGAGATGACGGACTAGAAGAC 2 BC009799 AREG amphiregulin CTCCACTCGCTCTTCCAACACC (schwannoma-derived CGCTCGTTTTGCGGCAGCTCGT growth factor) GTCCCAGAGACCGAGTTGCCCC AGAGACCGAGACGCCGCCGCTG CGAAGGACCAATGAGAGCCCCG CTGCTACCGCCGGCGCCGGTGG TGCTGTCGCTCTTGATACTCGG CTCAGGCCATTATGCTGCTGGA TTGGACCTCAATGACACCTACT CTGGGAAGCGTGAACCATTTTC TGGGGACCACAGTGCTGATGGA TTTGAGGTTACCTCAAGAAGTG AGATGTCTTCAGGGAGTGAGAT TTCCCCTGTGAGTGAAATGCCT TCTAGTAGTGAACCGTCCTCGG GAGCCGACTATGACTACTCAGA AGAGTATGATAACGAACCACAA ATACCTGGCTATATTGTCGATG ATTCAGTCAGAGTTGAACAGGT AGTTAAGCCCCCCCAAAACAAG ACGGAAAGTGAAAATACTTCAG ATAAACCCAAAAGAAAGAAAAA GGGAGGCAAAAATGGAAAAAAT AGAAGAAACAGAAAGAAGAAAA ATCCATGTAATGCAGAATTTCA AAATTTCTGCATTCACGGAGAA TGCAAATATATAGAGCACCTGG AAGCAGTAACATGCAAATGTCA GCAAGAATATTTCGGTGAACGG TGTGGGGAAAAGTCCATGAAAA CTCACAGCATGATTGACAGTAG TTTATCAAAAATTGCATTAGCA GCCATAGCTGCCTTTATGTCTG CTGTGATCCTCACAGCTGTTGC 3 Nm_014325 C0R01C coronin, actin binding GATAGGCCACATTCCAGTAAGA protein, 1C ACTCAATTTGTCTCCCAAATTT GCAGAAACAAAACGTGATTTAA AAGCTGAGCTTTTTATCAGAAA GCTTTTTTGATGTTTTAAGTGT TATGTGACTTGTTGAACTTTTT AAAAAGTGCTACTTTTAAAATC CCAGATACTCTGAATTTTAGAA AACAAACTAATTCTGATTGTGT CGTGCCCAAGTACCCTTTTTTT TTTAATGAGTAGGGACCAATGC CACATTGCTTTTTATATTTCTT TCTTTTTTAATGTTGCCAAAAC CAAAAGTAGCTTTGTTTTCCTT TGTATTTTGCTACTTTGCAGTA TTTGTGTGTGTGGTTTTTTTTC CTTAATTTGAAAGGGACAGCAC TGTGTATGTTTA 4 BC010488 AVEN apoptosis, caspase acti- AGGAGACCATTTGGAAGAAGAA vation inhibitor CTAGATCTGTTGCTTAATTTAG ATGCACCTATAAAAGAGGGAGA TAACATCTTACCAGATCAGACG TCTCAGGACCTGAAATCCAAGG AAGATGGGGAGGTGGTCCAAGA GGAAGAAGTTTGTGCAAAACCA TCTGTGACTGAAGAAAAAAACA TGGAACCTGAGCAACCAAGTAC CTCCAAAAATGTTACCGAGGAA GAGCTGGAAGACTGGTTGGACA GCATGATTTCCTAAAAAGGGGA AAAAAAGTGCCTGAAGCAAATC TTGGTTGCCTTCTAACGGCAGG TGGGCATAAGGCTGTCCTTCAG GACCAGCCAGTTTACAAGCATG TCTCAAGCTAGTGTGTTCCATT ATGCTCACAGCAGTAAATGCCT ACCTCTGTGTTTGACATCTGAA AGAATACATTGAAGCAGCTTGT TGCATTTGTTTTTCTGGCTTAG TAATCTAATAGATTTCCTTAAG GGCAGGAGATAGACTCTGGCCC TTGTTTCTAGCCTCCTTCCTTG CAGTGTTTACAACATAGCCAGT GTTTACAGCATAGCA 13: U52522   ARFIP2 1 tggagcccga ggtccccgcg cggcccgggc ctggcgccct gaggggaaga gcggcccggc 61 ccgagccatg acggacggga tcctagggaa ggcagccaca atggagatcc ctatccacgg 121 gaacggcgaa gccaggcagc ttcctgaaga tgatgggctg gagcaggacc tccagcaggt 181 gatggtgtca ggacccaacc tcaatgaaac cagcattgtg tctggtggct atgggggctc 241 tggtgatgga ctcatcccca cagggtctgg ccgccatcca tctcacagca ccactccttc 301 tggccctgga gatgaggtgg ctcggggcat tgctggagaa aagtttgaca tcgtcaagaa 361 atggggcatc aacacctata agtgcacaaa gcaactgtta tcagaacgat ttggtcgagg 421 ctcacggact gtggacctgg agctagagct gcagattgag ttgctgcgtg agacgaagcg 481 caagtatgag agtgtcctgc agctgggccg ggcactgaca gcccacctct acagcctgct 541 gcagacccag catgcactgg gtgatgcctt tgctgacctc agccagaagt ccccagagct 601 tcaggaggaa tttggctaca atgcagagac acagaaacta ctatgcaaga atggggaaac 661 gctgctagga gccgtgaact tctttgtctc tagcatcaac acattggtca ccaagaccat 721 ggaagacacg ctcatgactg tgaaacagta tgaggctgcc aggctggaat atgatgccta 781 ccgaacagac ttagaggagc tgagtctagg cccccgggat gcagggacac gtggtcgact 841 tgagagtgcc caggccactt tccaggccca tcgggacaag tatgagaagc tgcggggaga 901 tgtggccatc aagctcaagt tcctggaaga aaacaagatc aaggtgatgc acaagcagct 961 gctgctcttc cacaatgctg tgtccgccta ctttgctggg aaccagaaac agctggagca 1021 gaccctgcag cagttcaaca tcaagctgcg gcctccagga gctgagaaac cctcctggct 1081 agaggagcag tgagctgctc ccagcccaac ttggctatca agaaagacat tgggaagggc 1141 agccccaggg tgtgggagat tggacatggt acatcctttg tcacttgccc tctggcttgg 1201 gctccttttt ctggctgggg cctgacacca gttttgccca cattgctatg gtgggaagag 1261 tgcctggagg cccagaagtt gctgccctgt ctatcttcct ggccacaggg cttcattccc 1321 agatcttttc cttccacttc acagccaacg gctatgacaa aaccactccc tggccaatgg 1381 catcactctt caggctgggg tgtgctccct gaccaatgac agagcctgaa aatgccctgt 1441 cagccaatgg cagctcttct cggactcccc tgggccaatg atgttgcgtc taataccctt 1501 tgtctctcct ctatgcgtgc ccattgcaga gaaggggact gggaccaaag gggtggggat 1561 aatggggagc cccattgctg gccttgcatc tgaataggcc taccctcacc cacccaccca 1621 gtttaattgt gcttagagcc caagaagatt ggga 14: BM996053   C10orf9 1 tttttttttt ttttttttaa agtagtttaa taaactccac aaaataatag cagatgcatt 61 gaaatattta cataattcga ttttcaaatc tctcattcaa ataaaaggga taaaaataaa 121 atttctgcct ttacggcagc agaacctctt tcctgaaatg gattggtaaa ataagatact 181 tcactggnag aggaactaat ttatgtttaa gaggtattca tattcagcta agaaaataca 241 accctttttc agctatatag attagggaat ataaaatgat attttctaca ttttttgacc 301 tgtattcaaa gttctaaatt caactttgac ttgaagagag aaggtgattt tggtacccat 361 acagagtaga tcatcacaat tacaatggaa agataattaa cgttttatat gctgtttatt 421 tgcttttgaa agtttgggtc agaaaggctg tgataataat tctggcccaa acaggtatgc 481 ttatacctga cacaaatttc actaaaacct aacacttttg gcttggagtt cttgggattt 541 cgactttctg agtcccttcc atttccaaag catgtttcat tgagagcagg caatgtttgg 601 ggatcaggtg tatgattcaa gactaattaa gatgccaaag ttttccaagc tc 15: AK025452   NIP30 1 attgtggcgg tgaggaacag gaagccctga agggtcaaaa gaaatacaaa agcaaaggct 61 attttctttt tttttttctt tctttcattc cttccttcct ctgtttcttt ctttcttcct 121 ttcatttttt tttctttttt aagagcgagc ggctctgcgg tggcggtttg gggtgggcgc 181 cgccgaggtg aggtcgtctc gcctcccgcg cgccggtaga ttggttgttt cattatggat 241 ggaggggatg atggtaacct tattatcaaa aagaggtttg tgtctgaggc agaactagat 301 gaacggcgca aaaggaggca agaagaatgg gagaaagttc gaaaacctga agatccagaa 361 gaatgtccag aggaggttta tgaccctcga tctctatatg aaaggctaca ggaacagaag 421 gacaggaagc agcaggagta cgaggaacag ttcaaattca aaaacatggt aagaggctta 481 gatgaagatg agaccaactt ccttgatgag gtttctcgac agcaggaact aatagaaaag 541 caacgaagag aagaagaact gaaagaactg aaggaataca gaaataacct caagaaggtt 601 ggaatttctc aagagaacaa gaaggaagtg gaaaagaaac tgactgtgaa gcctatagaa 661 accaagaaca agttctccca ggcgaagctg ttggcaggag ctgtgaagca taagagctca 721 gagagtggca acagtgtgaa aagactgaaa ccggaccctg agccagatga caagaatcaa 781 gagccctcat cctgcaagtc tctcggaaac acctccctga gtggcccctc catccactgc 841 ccctctgctg cagtatgtat cggcatcctc ccaggcctgg gtgcctactc tgggagcagc 901 gactccgagt ccagctcaga cagcgaaggc accatcaatg ccaccggaaa gattgtctcc 961 tccatcttcc gaaccaacac cttcctcgag gccccctagt ttctccgtcc ctacacaggg 1021 agctcctccc caagggtaga tcggaccgtt catgctgcct ataggcatta tgtccctcaa 1081 aaaaaaactc ctttgcctgc atcctgtgta caacatgaca tttttaacca atccaatcta 1141 aaaatgtgcc agaatccacc tgtggcccga atcgtgtttg gttcctcttt ctactccact 1201 gcagatgacc aaacctgtcc cgctgccact ttcctcactg atattgggag gagggcaagg 1261 cccagccgaa gttccactaa aaatgcccca ggagaatagg caccggctgg cttgccaaag 1321 ggtttgggtt ttattgcttt ctgttttttc ttttcccgac agcacaaaga agtaagggca 1381 gttattggac aggtgttatt taaacattct attgtaaatg aatgtgttgt ttggttctac 1441 tgcattgtgg agcatgcggg ggaagagaac tgacccaggt aatgaaatgg agcccttccc 1501 tggaactaac cagtccttga tgttgtgtga ctaagtaaag atgataaacc ccatctgctg 1561 ggggtgtcac ttcacactcg gcatgcattg tgaaagcttt ccataccctt ggccattccc 1621 tctctcctct ctctccaacc ccatttatgc aggaggggac tgctaacaag aacgcttcca 1681 tctcaaacct tttctctgcc tgggaaatta ttttatgttt gtttttgaaa taaaggattt 1741 agtttaagat tctaaatttt agagaaacaa acgtaggcct tgtttactaa tagccagaca 1801 tcagaactgc aggtaggtat gttaatgaga tgacttattt ctggcagctc ctggaatcct 1861 aatattgtaa atgagtggga cacacttgca tattgtgacc attctattga ggcccttctc 1921 tgtttaatgc atattatact tgtgctttta actgtggaat ctatttctaa cctaaaaaaa 1981 aaaaaaaaaa 16: N52048   KIAA0776 1 aaatttctgt attttagttt tgaagtgctt tctatttaaa aataaaaaac atgatttatt 61 ttcatttctg acacagaagt gtttctttta aaaaaaaaag accacatttt aaatttctgc 121 ttaaatgtat ataaagtata catttaagta tactggcact cgcaacaaat gaatccttcc 181 ccagggataa atggattgga aaatttgttt ttcattcaac atttggaaag agaacaaacc 241 tgaaatatgt aatttttaaa attatgtgaa aataatgtga aaaatttcat atagtatttg 301 tgtgaaaatc aggtggaaaa aaacttccat gaagaaccca atttaccaaa attcnccatc 361 nttttaagat ttacnttttn aataccatac tactggtttt aacnggaatt ggggtgtggt 421 atgagggggg ttttgcnggg gagangggga 17: AA507009:   SLC35F2 1 tatttccatg aattcaaagc cttttaatga tgtgaacact tactccccat ttctttttta 61 cattgttaca aaaaatttac atacagtttt ctgaaagtgg cattttgttg gttgttatta 121 tactgatgac acatattaac actttgtatt gaagaagtat cataaaaatc acagggcatt 181 acagattttt gataagaagt agtaatagca ttgtctttta acagctggag gctcccaggc 241 atactctttg gtgagaaatg attaatttta tattttcatt ttgatgagaa tcttttcttg 301 tttttaccag ttataaaaac aaagcttttt ctttgttgtg atactgtgca ctaagactta 361 gtttcttgag ctgatgctaa ataaaatgag atcaatagga atattccggg aggtcgtgag 421 aagtttttag aaaggatggc atctacatat atatggagct ctgaaaactg ttggagagta 481 tgacctggga ctgaaactgt ggagcaca 18: AA226243:   GAMLG 1 tcgacatcta atcctcattc ttatgaactt ggtattatgt gaatccattg ggaaatgaag 61 actcagagag gttaaaccat ttgcccaagg tcacacagct actaagcggt gctaggatta 121 aaccctggca gtttcagtcc ttaaccaaag ggttaagcgc tttacatata tatacctgta 181 tattatcaat tttcaaataa tttgaaatag taaaatgcag ttcctctggt cctgaatatg 241 aggtaatctt cctatggttc agaagacatt tcagcatttc ctaatatatc ataatgagtc 301 cattttggtt gtaccatgat gtagtcattt tgttttatag tatattaaag aatgcagaaa 361 agcatagctc atagttccag tgtcttgctc tgaggttttt ccattcagta gacattttaa 421 gtatatgtac caggcacata aatatccaga taattaaagt ttatatcatt aagcn 19: AF005888   NOC4 1 gcgccatcaa tcgccgccgc ctcgtcccgc ttctcggctg aggcgccgcg cggccaggca 61 gcgggtccag gcctcagccg cgcgcccagg ggcctccggg gccctcccgg gtcagcatgc 121 ccggggtgaa actgaccacc caggcctact gcaagatggt gctgcacggc gccaagtacc 181 cgcactgcgc cgtcaacggg ctcctggtgg ccgagaagca gaagccgcgt aaggagcacc 241 tccccctggg cggccccggc gcccaccaca ccctcttcgt ggactgcatc cccctcttcc 301 acggcaccct ggccctcgcc cccatgctgg aggtggctct caccctgatt gattcatggt 361 gcaaagatca tagctacgtg attgctggtt attatcaagc taatgagcga gtaaaggatg 421 ccagtccaaa ccaggttgca gagaaggtgg cctccagaat cgccgagggc ttcagcgaca 481 ctgcgctcat catggtagac aacaccaagt ttacgatgga ctgcgtagcg cctacgatcc 541 acgtgtacga gcaccatgag aacagatggc ggtgcagaga cccacaccat gactactgtg 601 aagactggcc agaggcacag aggatctcag cctcgctcct ggacagccgg tcctacgaga 661 cgctcgtgga tttcgataac cacctggatg acattcggaa tgactggaca aacccagaga 721 tcaataaagc tgtcctacac ttgtgctagg caggcaccgc tgtgactggg ctccgggcct 781 ttcccactac gttgaagaag aaaacctatt tttaaatgta aataaaatat ctggtagcct 841 gtgtggaaag ctgaccgttt taagaagtgg catgtgcctt gaaagggggc agaatgttca 901 gtcggtcgtg tttttaacac agagtctcta gaagaggtgc agacatcccg tctgactgtc 961 cctgtggact ctctcagttg tatgttgcta taatcctcca aatcaaagct ctttctgctt 1021 gtgcaagatt gttcctatta aacagtttta actaaccttt a 20: AF012281   PDZK1 1 gaattccggg cagctcctct tccatctcca gaaatgacct ccaccttcaa cccccgagaa 61 tgtaaactgt ccaagcaaga agggcaaaac tatggcttct tcctgcgaat tgagaaggac 121 accgagggcc acctggtccg ggtggttgag aagtgtagcc cagcagagaa ggctggcctt 181 caagatggag acagagttct taggatcaat ggtgtctttg tggacaaaga agaacatatg 241 caggttgtgg atctggtcag aaagagtggg aattcagtga ctttactagt tctggatggg 301 gattcctatg agaaagcagt gaaaacacgg gtggacttga aagagttggg tcaaagtcag 361 aaggagcaag gtttgagtga taatatactt tcccctgtga tgaatggagg tgtgcaaact 421 tggacccagc cccggctctg ctatctcgtg aaggaaggag gcagctatgg cttctctctg 481 aaaactgtcc aaggtaaaaa gggggtgtac atgactgata ttacacctca aggtgtggct 541 atgagagctg gagttctggc tgatgatcac ttgattgaag tgaatggaga gaatgtagag 601 gatgccagcc atgagaaagt ggttgaaaag gtgaagaagt caggaagccg tgtcatgttc 661 ctgctggtgg acaaagaaac tgacaagcgt catgttgagc agaagataca attcaaaaga 721 gaaacagcca gtttgaaact gttaccccac cagccccgaa ttgtggagat gaagaaagga 781 agcaatggct atggtttcta tctgagggca ggctcagaac agaaaggtca aatcatcaag 841 gacatagatt ctggaagtcc agcagaggag gctggcttga agaacaatga tctggtagtt 901 gctgtcaacg gcgagtctgt ggaaaccctg gatcatgaca gtgtggtaga aatgattaga 961 aagggtggag atcagacttc actgttggtg gtagacaaag agacggacaa catgtacaga 1021 ctggctcatt tttctccatt tctctactat caaagtcaag aactgcccaa tggctctgtc 1081 aaggaggctc cagctcctac tcccacttct ctggaagtct caagtccacc agatactaca 1141 gaggaagtag atcataagcc taaactctgc aggctggcta aaggtgaaaa tggctatggc 1201 tttcacttaa atgcgattcg gggtctgcca ggctcattca tcaaagaggt acagaagggc 1261 ggtcctgctg acttggctgg gctagaggat gaggatgtca tcattgaagt gaatggggtg 1321 aatgtgctag atgaacccta tgagaaggtg gtggatagaa tccagagcag tgggaagaat 1381 gtcacacttc tagtctgtgg aaagaaggcc tatgattatt tccaagctaa gaaaatccct 1441 attgtttcct ccctggctga tccacttgac acccctccag attctaaaga aggaatagtg 1501 gtggagtcaa accatgactc gcacatggca aaagaacggg cccacagtac agcctcacat 1561 tcttcttcca attctgaaga tacagagatg tgatgaaaac aagtaatagc tttggctgtt 1621 tatttgatag ctgtttctgg gtatttaata ggaatccttt ctcaaggaat gagttgtgac 1681 ctgtttactg tctctttaga agaaaaactc cactggaaac cattcaccat gtgtgactgt 1741 cttctgttat catttgtctt acaggcggct attgcagacg gctaatttat gcttaactta 1801 ggaagagata aggcaagagc tagatttttt tcatgtgatc ttttccaagc ttcaacttaa 1861 cttaactaca tttctctgta tgatgatgtc tcttacttct acaggttcct tgagcaccaa 1921 agatgattca taactctgta taggtgacag ctgcttataa aagcatctta gcagataagc 1981 ctattaaaat tgtgcttttg taacaatgtt gtggttgcta gaataaatac catgaacccg 21: AI188190   DIS3 1 tttaaaagcc actaattatc tgttttttat tttgtaagta acaagatata gacatttgaa 61 tgccaatgtc ttattctgga gagacactgg agctgaagtt caacaatgat cacacttatt 121 acctggcaat aaaaacacaa ccatctttcc agtcaggtca aaatatccta ctttttgcct 181 ttctaccaaa tcccaaacat tcacagtttt tcaaggacca ctaataaaat acaggaagct 241 tttaaagaca gtaagagaac acctagtgta agttaggtga attaaagatg gcaaaggaga 301 ttacatcctc aacactgaca gcttccaaga cttagaaaag agattgttcc ttgcttctaa 361 aattgttcta ttttcctctg taggaaaatg aaagtttttt cttacaaata ttaaataatc 421 aaagtactta cgcaaaatta atctgctcct caatgagatg agcactccat ttaaatgatc 481 tttacagatc cctgaagttg ctgtcctgtc actgtattta agtgatggat attcaattga 541 attattctgc ataaataatt ctggtcaacc cagacgtata gtagtatgat gggtcagata 601 cagtcaactg ttcaataaaa atgcagatgt ctg 22: BC001535   CGI-48 1 ctgcgtttct cctcaaacct aacgatgccg ccggagcgga ggagacgaat gaaactggac 61 cggagaaccg gagcgaagcc gaagcggaag cccggaatga ggccggactg gaaagccgga 121 gcggggccag gcgggcctcc ccaaaagcct gccccttcat cccagcggaa accgccggcc 181 cggccgagcg cggcggccgc tgcgattgca gtcgcggcgg cggaggaaga gagacggctc 241 cggcagcgga accgcctgag gctggaggag gacaaaccgg ccgtggagcg gtgcttggag 301 gagctggtct tcggcgacgt cgagaacgac gaggatgcgt tgctgcggcg tctgcgaggc 361 ccgagggttc aagaacatga agactcgggt gactcagaag tggagaatga agcaaaaggt 421 aattttccac ctcaaaagaa gccagtttgg gtggatgaag aagatgaaga tgaggaaatg 481 gttgacatga tgaacaatcg gtttcggaag gatatgatga aaaatgctag tgaaagtaaa 541 ctttcgaaag acaaccttaa aaagagactt aaagaagaat tccaacatgc catgggagga 601 gtacctgcct gggcagagac tactaagcgg aaaacatctt cagatgatga aagtgaagag 661 gatgaagatg atttgttgca aaggactggg aatttcatat ccacatcaac ttctcttcca 721 agaggaatct tgaagatgaa gaactgccag catgcgaatg ctgaacgtcc tactgttgct 781 cggatctcat ctgtgcagtt ccatcccggt gcacagattg tgatggttgc tggattagat 841 aatgctgtat cactatttca ggttgatggg aaaacaaatc ctaaaattca gagcatctat 901 ttggaaaggt ttccaatctt taaggcttgt tttagtgcta atggggaaga agttttagcc 961 acgagtaccc acagcaaggt tctttatgtc tatgacatgc tggctggaaa gttaattcct 1021 gtgcatcaag tgagaggttt gaaagagaag atagtgagga gctttgaagt ctccccagat 1081 gggtccttct tgctcataaa tggcattgct ggatatttgc atttgctagc aatgaagacc 1141 aaagaactga ttggaagcat gaaaattaat ggaagggttg cagcatccac attctcttca 1201 gatagtaaga aagtatacgc ctcttcgggg gatggagaag tttatgtttg ggatgtgaac 1261 tcaaggaagt gccttaacag atttgttgat gaaggcagtt tatatggatt aagcattgcc 1321 acatctagga atggacagta tgttgcttgt ggttctaatt gtggagtggt aaatatatac 1381 aatcaagatt cttgtctcca agaaacaaac ccaaagccaa taaaagctat aatgaacttg 1441 gttacaggtg ttacttctct gaccttcaat cctactacag aaatcttggc aattgcttca 1501 gaaaaaaatg aaagaagcag tcagattggt tcatcttcct tcctgtacag tattttcaaa 1561 cttcccagtc attaaaaata agaatatttc tcatgttcat accatggatt tttctccgag 1621 aagtggatac tttgccttgg ggaatgaaaa gggcaaggcc ctgatgtata ggttgcacca 1681 ttactcagac ttctaaagag actatttgaa gtccagttga gtcacaagag aagcctgtct 1741 tgatatatca tctcagaaac tttcctgaat atgtgataat atatggaaaa tgatttatag 1801 atccagctgt gcttaagagc cagtaatgtc ttaataaaca tgtggcagct tttgtttgaa 1861 aaaaaaaaaa aaaaaaaa 23: NM_007007   CPSF6 1 aattccgggc ggcggcggcc gaggctgaag gaagatggcg gacggcgtgg accacataaa 61 catttacgcg gatgtcggcg aagagttcaa ccaggaagct gaatatggtg ggcatgatca 121 gatagatttg tatgacgatg tcatatctcc atctgcaaat aatggagatg ccccagaaga 181 ccgagattac atggatactc tcccaccaac tgttggtgat gatgtgggta aaggagcagc 241 accaaatgtt gtctatacat atactggaaa gagaattgca ttatatattg gaaatctaac 301 atggtggaca acagatgaag acttaactga agcagttcat tctttgggag taaatgatat 361 tttggagata aaattttttg aaaatcgagc aaatggccag tcaaaggggt ttgcccttgt 421 tggtgttgga tctgaagcat cttcaaaaaa gttaatggat ctgttaccta aaagagaact 481 tcatggtcag aatcctgttg taactccatg caataaacag ttcctgagtc aatttgaaat 541 gcagtccagg aaaactacac aatcaggaca aatgtctggg gaaggtaaag ctggtcctcc 601 aggaggcagt tcccgtgcag catttccaca aggtggtaga ggacggggcc gttttccagg 661 ggctgttcct ggtggggaca gatttcctgg gccagcagga ccaggagggc cacccccacc 721 ttttccagct ggacagactc caccacgtcc acccttaggt cctccaggcc cacctggtcc 781 accaggtcct ccacctcctg gtcaggttct gcctcctcct ctagctgggc ctcctaatcg 841 aggagatcgc cctccaccac cagttctttt tcctggacaa ccttttgggc agcctccatt 901 gggtccactt cctcctggcc ctccacctcc agttccaggc tacggccccc ctcctggccc 961 accacctcca caacagggac cacctccacc tccaggcccc tttccacctc gtccacccgg 1021 tccacttggg ccacccctta cactagctcc tcctccgcat cttcctggac cacctccagg 1081 tgccccaccg ccagctccgc atgtgaaccc agctttcttt cctccaccaa ctaacagtgg 1141 catgcctaca tcagatagcc gaggtccacc accaacagat ccatatgggc gacctccacc 1201 atatgatagg ggtgactatg gcccccctgg aagggaaatg gatactgcaa gaacgccatt 1261 gagtgaagct gaatttgaag aaatcatgaa tagaaatagg gcaatctcaa gcagtgctat 1321 ttcgagagct gtgtctgatg ccagtgctgg tgattatggg agtgctattg agacactggt 1381 aactgcaatt tctttaatta aacaatccaa agtatctgct gatgatcgtt gcaaagttct 1441 tattagttct ttgcaagatt gccttcatgg aattgagtcc aagtcttatg gttctggatc 1501 aagacgtgaa cgatcaagag agagggacca tagtagatca cgagaaaaga gtcgacgtca 1561 taaatcccgt agtagagacc gtcatgacga ttattacaga gagagaagca gagaacgaga 1621 gaggcaccgg gatcgtgacc gagaccgtga ccgagagcgt gaccgagagc gcgaatatcg 1681 tcatcgttag aagctgaagg aagaggatca ccttccaaga caaaacagtc ttcatgggcc 1741 aaaaatgacg cttgtccagc agtttgcttc ttgtgattga actgaacctg taaggattca 1801 tggataaaat gaacaggaat agatctgaat aaagcaaatc tgcataaatg gtaaccagta 1861 gctctacttt tattttttat gttgcttaac tgttttattt gaaggaaacc tgtgtgattt 1921 aaaaagttat agcttttgca actttattac tggttatata catttggcca ttatgatgtg 1981 caagcaattg gaaaaaaagt caagtaaatg cttgtttttg tagtagtttg ttcttgttaa 2041 aaatgtttat atgataatgt ctgtaaacag catcactttg attacaatag atgtagtgtt 2101 gtaataaact gtttaatggg gctgatgtgt aaagctgttc aagttatttg atgtttacac 2161 ctcagggaaa gtcttgtgtt cagcaatatc taaagataat gttactatga caacattttt 2221 actgtccttt aaagcattgc aatagcgttt ttggatatgc ctcaatctaa tcttgcgttc 2281 agtgaattaa acatagtaat taagtgtctt ttgcccttga ttttgatatt agaataggtg 2341 attacatgga tatttaatat ttctatattc tgcttttcta gctgttttta cctagttagc 2401 ttgtgacttt gctgaatggt atgtaaactt gtaaaaatag agatttgaca gacatagcaa 2461 tctagtcaat gtgtaagggg tcaaaaaaaa cagaggtttt aacacataag taaaaacccg 2521 tacatatttg atgtgtaatg caggttaatt acaacacaga tgtaccgaaa cacttaattg 2581 tgaaccgcta acattgaaga aattttgaca attccgattt gatgctgcaa ttacttgctg 2641 tttttattga tcttatggtt tatttcttaa gccatagtca gtgtaaatac agccctgcag 2701 caggtaaatg tgagtaaaga gagccttata ttttccaatt ggtataaaat ttttgaagga 2761 tgtgatgttc attaacattc ggttgtattc cccagtattt gtaatgggaa attacagata 2821 aaccgtgtct gcacagttta aggaatacta tgtatattca tgcaccgtat tgattcatgc 2881 tatagttact taatcaaaga tttttttcaa acctgcctta catataggcc cactttaaaa 2941 gcacctgact agcatgtgtt cttgattgca aaattggcag aggcagggtg tcaacttgat 3001 taggtgtttt tatgggaatg taatttgaaa tcactacttc agaaatttga cttaaaattc 3061 ttgagcacgt taatatgttt ttaagatctg attatctttg agagatcttc tgttaataca 3121 cattggttgt taaagagtac ccaaattcta ggacaatgct taaagtgtta aaatacccta 3181 gatactgtgt tatgtgcaac tgtagaaacc ctccagaaat ttccactgct gttcttcact 3241 ttcatcttgt ctgctatcaa accacttctg acaaaattag ctgttttgaa ttacccatat 3301 cactgccagt tttattttaa aatattttgt gtttgaagta tctgtgcatg ggatcgttga 3361 tgtttatcag aactgttcac tttcagaaat gattttttaa agcattttgt tgaaatgcgg 3421 ttgctt 24: NM_002254   KIF3C 1 tcactctcgc tgccgctgct ccgccccatc cccttctgtt tttctctctc attctccagt 61 ggcggcggcg gggaaggcgg aggcagaggc agcagcagcc gcgctggctg caatgaatga 121 tcccccagct tggggggagg actccaggtg agcctctgcc ctcgggaggc ccgggacccc 181 cggccgccca cgaccggcag cccacgctat ggatccctag aggaaggagg agaagacagc 241 tcgccgccca cccccatccc attttcctct tcctttatct cattgttgcc gaagctgttt 301 acggcagcgc tccctctgct ccagcatggg gcgggctccg ggcacggctg ctcggcaggc 361 gctgctcccg cggcgactgg gggattctgc ctaattcacc tcccagccgg tgcagagagg 421 accggagagc ggtggaggcc cggactgcag cagcgttggg gccacctccc agcgtcccca 481 ccctaggagg ctgcatgcgg attgaagagc tgcgcctggg ggctgggccg gccccgctga 541 tcccgaccta gcgagcagga tagcaggacc gcccaggctg cggaggggct cgggggcagg 601 aaggtcagag cagcaagatg gccagtaaga ccaaggccag cgaggccctc aaggtggtgg 661 cccggtgccg ccccctcagc aggaaggagg aggctgctgg tcacgagcag atcctgacca 721 tggacgtgaa actgggccag gtgaccctgc ggaacccccg cgccgccccg ggggagctgc 781 ccaagacctt cacctttgac gccgtgtatg atgccagctc caagcaggcc gacctgtatg 841 acgaaaccgt gaggcccctg atagactccg tgctccaggg tttcaatggc acggtgtttg 901 cctatggcca gacgggcact ggcaagacct ataccatgca ggggacctgg gtggagcccg 961 agctgcgcgg ggtcatcccg aatgcctttg agcacatctt cacccacatc tcccgctccc 1021 agaaccaaca gtacctggtc cgggcctcct atttggagat ctaccaggaa gagattcgag 1081 acctgctctc caaggagccg ggcaagaggc tagagctgaa agagaacccc gagactggcg 1141 tctacatcaa ggacctctcc tccttcgtca ccaagaatgt caaggagatt gagcatgtga 1201 tgaacctggg gaaccagacc cgggctgtgg gcagcaccca catgaatgag gtcagctccc 1261 gctcccatgc catcttcatc atcactgtgg agtgcagcga acgtggctct gatggccagg 1321 accacatccg agtgggcaag ctcaacctcg tggacctggc tggcagcgag aggcagaaca 1381 aggcaggccc caacacagcg ggaggggcag ccacaccatc ctcgggtggc ggtggtggcg 1441 gtggaggcag tggtggtggt gctggtggag agaggcctaa ggaagcctcc aaaatcaacc 1501 tctcattatc tgccctgggc aacgtgattg ctgccctggc gggcaacagg agcacccaca 1561 ttccctaccg ggactccaag ctgacccggc tgctccagga ctccctgggg gggaatgcca 1621 agaccatcat ggtagccaca ctggggccag cttctcacag ctacgatgag agcctctcca 1681 ccttgcgctt tgccaaccga gccaagaaca tcaagaacaa gccccgggtg aacgaggacc 1741 ccaaggacac actgctgcgg gaattccaag aggagattgc ccgcctgaag gcccagctgg 1801 agaagagggg gatgctgggg aagcggcccc ggaggaagag cagccgcagg aagaaggccg 1861 tgtccgcccc gcctgggtac cctgagggcc cagtgattga ggcctgggtg gcagaagagg 1921 aggatgacaa caacaacaac caccgcccgc cccagcccat cctggagtca gccttggaga 1981 agaacatgga gaattacctg caggaacaga aggagcggct ggaggaggag aaggcagcca 2041 tccaggatga ccgcagcctg gtgagcgagg agaagcagaa gctgctggag gagaaggaga 2101 agatgctgga ggacctgcgg cgggaacagc aggccacaga gctgcttgcg gccaagtaca 2161 aggccatgga gagcaagctc ctcatcgggg gcaggaacat catggatcac accaacgaac 2221 agcagaagat gttggaactg aagaggcagg agattgccga gcagaaacgt cgtgagcggg 2281 agatgcagca ggagatgatg ctccgggacg aggagactat ggagctccgg ggcacctaca 2341 catccctgca gcaggaggtg gaggtcaaaa ccaagaaact caagaagctc tacgccaagc 2401 tgcaggcggt gaaggcggag atccaggacc agcatgatga gtatatccgc gtgcggcagg 2461 acctggagga ggcgcagaac gagcagaccc gcgaactcaa gctcaagtac ctaatcatcg 2521 agaacttcat cccgccggag gagaagaaca agatcatgaa ccggcttttc ctggactgtg 2581 aggaggagca gtggaagttc cagccactgg tgccagccgg cgtcagtagc agccagatga 2641 agaagcggcc aacatctgca gtgggctaca agaggcctat cagccagtat gctcgggttg 2701 ccatggcaat ggggtcccac cccaggtaca gggctgaaaa cataatgttt ctggagttgg 2761 atgtgtcccc tccagctgtc tttgagatgg aattctctca cgaccaagaa caagaccctc 2821 gtgcgctaca catggagagg ctcatgcgat tggacagctt tctggaaaga ccttccacgt 2881 ctaaagtccg aaagtccaga tcctggtgcc agagtcctca gcggcctcca ccttccacca 2941 cacatgcctc cctggcctct gcttctctgc gccctgcaac agtggcggac catgagtgac 3001 aaccatcacg tcaggctgcc catccaatag actcctggga tggggcagcc aaccctggct 3061 catctcatct gccgcttggt gcgtgtgcgt gtgcgtgcat gtgcgtgtgc gtgtgtgcag 3121 gggtgagaat ctggcagatg gtgcctctgc ctgctcttct tcgcctcctt tatttaattc 3181 atgttattta ttcgcggagc tctgttcgtg ttggggagat gccctcgcct gagccgtctg 3241 ggcctaccgt ggtcactgcg tagcctcttt ttcttctgac ttgagagctc ccccagtcag 3301 atctcaggct tgtccccctg tcagctgcct ccagaaggga aggtagccag tgcctgagaa 3361 gacagtccct tttctaccca ccgcactcca taacctccat cttctcccac actgatggcg 3421 agcagcccct gagcactttc tgggactggg agactgcttg gtgttccctg aggacaagag 3481 acatcctgac agtgttgggc atctgctccc cgtggacaca gccccactct ccactttctg 3541 agcctcagac aacctcattc agcctcttgg gctccttttc aaggacatta ataacctcac 3601 caacatagct catgcccttc agctttgaca agaactcacg gcttcccaaa ctctgctttc 3661 tgcccacctt ggatgggaac tgtggaccaa gcaattacca tcgccttgga acctgcagga 3721 aatggaacag caattgagac aacttgaaca gtcatcaacg gaagtccctc cactggattc 3781 ctttgtttct gtcccctccg aggagtcatt ttggtcgaca ggctctcaag gcaactcccc 3841 attttcaaga ggctgctcct gcctgcttcg atcatttctc cctgcagctg cctagacccc 3901 gttcacagtg ggaggagtca atgtcattct acccctcgct aaacgaagat attaacatct 3961 attgcttttt cccttcatct gtcacaggaa acagaagccc aggcacaatc ttttccagct 4021 ttgcctgtta cccctgtttc tgaattgcat ctttaaggta ttattttgtt gacaatagat 4081 cctttattca ctagttacgc aaattggttc ctagggggat actccttacc ttcctttgtg 4141 atggcccaaa atgtctctag gtatctcaag tgataagtaa atttctacaa aaaaaaatgg 4201 ttaatgttca ttgactggct ttttaagtgt atattttgga ggacgggtga agaggtcata 4261 acgaaagcaa gcgagtgaat taggatttca aagtgcccta atagtgtgag tctccagttc 4321 ctagaatatg aagagtgctg tcgttggggt gaaaccatga gactgacaga tctgcctgaa 4381 atggggggtg tgggaggtgg tggcgggggt tattctcttt ccttcaggaa atgaaccctt 4441 cttacatcat tcaagttctg ctctgaggat caagcttggg tctgatttaa ctcagcgaca 4501 ctgtcatttc tgcttcatta ctggactaga gggttgagcc acccacttgc catttgctcc 4561 tgtccttcca ggaaatcaca attttcatca gagcccaaga gattatttga gactcaggat 4621 tcagatcaga ggttcgactg tggctgggac aggagttgtg tgtagaaatt caccaggtgg 4681 cctgagcgca gggggacctc cagggctgcg ttgagcagcc tctcccactg acctctttct 4741 cgtttgtgga caaagcagca cgtatcacct cattcatcac ttggacacat cgcctttgca 4801 ttgtcttgtc acacctccct cacagtctta tagcacaata tacccaaatc agccccccca 4861 gtccgagggc tgggcccaag gtatggtcgg aggaggagct cctgcctgcg gttttgtgta 4921 tgtgtgtatg tgtgtgcgtg tttgtgtgcg tgtttacctc cacaggggac actctacact 4981 cagtgtaaga tctgctggga acagggccac caggagtggc tggatctcag tctctctgtc 5041 tctctttctc tccttttcct tttggtgtat caaatatttg attgacaaag taagggcctt 5101 gattaggacc aaattctcgt gtgttgctat ggtctttatt taggacaaca attaacaatg 5161 cagtggccca ttcttgtcac tctacacata tgactatacg ggacatatgt aatatataaa 5221 tatatatata aaacattccc ctctgtcccc ttggcttcgg atggaggcct ttctgttgag 5281 ctgaaatgca cctgcagctg ggtgctgcca gcagcttgca ggccccagcc ctgttccaat 5341 caatgcagtt gacaataaag gaatgagtat cgtcacggaa aaaaaaaaaa aaaaaaaaaa 5401 a 25: BQ135232   CD9 1 taaacaatgg tatcaacgca aagtaagcgg gcagccgcct gcatctgtat ccagcgccag 61 gtcccgccag tcccagtgcg cgcgcccccc agtcccgcac ccgttcggcc aggctaagtt 121 agccctcacc atgcggtcaa aggaggcagc aagtgcatca aatacctgct gttcggattt 181 aacttcatct tctggcttgc cgggattgct gtccttgcca ttggactatg ggtccgattc 241 gactctcaga ccaagagcat cttcgagcaa gaaatttcct aataataata attccagctt 301 ctacacagga gtctatattc tgatcggagc cggcgccctc atgatgctgg tgggcttcct 361 gggctgctgc ggggctgtgc aggagtccca gtgcatgctg ggactgttct tcggcttcct 421 cttggtgata ttcgccattg aaatagctgc ggccatctgg ggatattccc acaaggatga 481 ggtgattaag gaagtccagg agttttacaa ggacacctac aacaagctga aaaccaagga 541 tgagccccag cgggaaacgc tgaaagccat ccactatgcg ttgaactgct gtggtttggc 601 tgggggcgtg gaacagttta tctcagacat ctgccccaag aaggacgtac tcgaaacctt 661 caccgtgaag tcctgtcctg atgccatcaa agaggtcttc gaccaataaa ttccacatca 721 tcggcgcagt gggcatcggc attgccgtgg tcatgatatt tggcatgatc ttcagtatga 781 tcttgtgctg tgctatccgc aggaaccgcg agatggtcta gagtcagctt acatccctga 841 gcaggaaagt ttacccatga agattggtgg gattttttgt ttgtttgttt tgttttgttt 901 gttgtttgtt gtttgttttt ttgccactaa ttttagtatt cattctgcat tgctagataa 961 aagctgaagt tactttatgt ttgtctttta atgcttcatt caatattgac atttgtagtt 1021 gagcgggggg tttggtttgc tttggtttat attttttcag ttgtttgttt ttgcttgtta 1081 tattaagcag aaatcctgca atgaaaggta ctatatttgc tagactctag acaagatatt 1141 gtacataaaa gaattttttt gtctttaaat agatacaaat gtctatcaac tttaatcaag 1201 ttgtaactta tattgaagac aatttgatac ataataaaaa attatgacaa tggccaaaaa 1261 aaaaaaaaaa aaaaaaaaaa 26: BC051322   LRRC8 1 gcggccgggg cctggggctg cctgccgggc ggccgggcgc ggcgagccca gggaggcagc 61 gtccatggag caaaaggaat gccaggatcc tgcacaggca gacgcgggcc agcctcagca 121 ccgacagccg acgcgcagat agcagagcca tccttggggt tgaaccatga ttccggtgac 181 agagctccgc tactttgcgg acacgcagcc agcataccgg atcctgaagc cgtggtggga 241 tgtgttcaca gactacatct ctatcgtcat gctgatgatt gccgtcttcg gggggacgct 301 gcaggtcacc caagacaaga tgatctgcct gccttgtaag tgggtcacca aggactcctg 361 caatgattcg ttccggggct gggcagcccc tggcccggag cccacctacc ccaactccac 421 cattctgccg acccctgaca cgggccccac aggcatcaag tatgacctgg accggcacca 481 gtacaactac gtggacgctg tgtgctatga gaaccgactg cactggtttg ccaagtactt 541 cccctacctg gtgcttctgc acacgctcat cttcctggcc tgcagcaact tctggttcaa 601 attcccgcgc accagctcga agctggagca ctttgtgtct atcctgctga agtgcttcga 661 ctcgccctgg accacgaggg ccctgtcgga gacagtggtg gaggagagcg accccaagcc 721 ggccttcagc aagatgaatg ggtccatgga caaaaagtca tcgaccgtca gtgaggacgt 781 ggaggccacc gtgcccatgc tgcagcggac caagtcacgg atcgagcagg gtatcgtgga 841 ccgctcagag acgggcgtgc tggacaagaa ggagggggag caagccaagg cgctgtttga 901 gaaggtgaag aagttccgga cccatgtgga ggagggggac attgtgtacc gcctctacat 961 gcggcagacc atcatcaagg tgatcaagtt catcctcatc atctgctaca ccgtctacta 1021 cgtgcacaac atcaagttcg acgtggactg caccgtggac attgagagcc tgacgggcta 1081 ccgcacctac cgctgtgccc accccctggc cacactcttc aagatcctgg cgtccttcta 1141 catcagccta gtcatcttct acggcctcat ctgcatgtat acactgtggt ggatgctacg 1201 gcgctccctc aagaagtact cgtttgagtc gatccgtgag gagagcagct acagcgacat 1261 ccccgacgtc aagaacgact tcgccttcat gctgcacctc attgaccaat acgacccgct 1321 ctactccaag cgcttcgccg tcttcctgtc ggaggtgagt gagaacaagc tgcggcagct 1381 gaacctcaac aacgagtgga cgctggacaa gctccggcag cggctcacca agaacgcgca 1441 ggacaagctg gagctgcacc tgttcatgct cagtggcatc cctgacactg tgtttgacct 1501 ggtggagctg gaggtcctca agctggagct gatccccgac gtgaccatcc cgcccagcat 1561 tgcccagctc acgggcctca aggagctgtg gctctaccac acagcggcca agattgaagc 1621 gcccgcgctg gccttcctgc gcgagaacct gcgggcgctg cacatcaagt tcaccgacat 1681 caaggagatc ccgctgtgga tctatagcct gaagacactg gaggagctgc acctgacggg 1741 caacctgagc gcggagaaca accgctacat cgtcatcgac gggctgcggg agctcaaacg 1801 cctcaaggtg ctgcggctca agagcaacct aagcaagctg ccacaggtgg tcacagatgt 1861 gggcgtgcac ctgcagaagc tgtccatcaa caatgagggc accaagctca tcgtcctcaa 1921 cagcctcaag aagatggcga acctgactga gctggagctg atccgctgtg acctggagcg 1981 catcccccac tccatcttca gcctccacaa cctgcaggag attgacctca aggacaacaa 2041 cctcaagacc atcgaggaga tcatcagctt ccagcacctg caccgcctca cctgccttaa 2101 gctgtggtac aaccacatcg cctacatccc catccagatc ggcaacctca ccaacctgga 2161 gcgcctctac ctgaaccgca acaagatcga gaagatcccc acccagctct tctactgccg 2221 caagctgcgc tacctggacc tcagccacaa caacctgacc ttcctccctg ccgacatcgg 2281 cctcctgcag aacctccaga acctagccat cacggccaac cggatcgaga cgctccctcc 2341 ggagctcttc cagtgccgga agctgcgggc cctgcacctg ggcaacaacg tgctgcagtc 2401 actgccctcc agggtgggcg agctgaccaa cctgacgcag atcgagctgc ggggcaaccg 2461 gctggagtgc ctgcctgtgg agctgggcga gtgcccactg ctcaagcgca gcggcttggt 2521 ggtggaggag gacctgttca acacactgcc acccgaggtg aaggagcggc tgtggagggc 2581 tgacaaggag caggcctgag cgaggccggc ccagcacagc aagcagcagg accgctgccc 2641 agtcctcagg cccggagggg caggcctagc ttctcccaga actcccggac agccaggaca 2701 gcctcgtggc tgggcaggag cctggggccg cttgtgagtc aggccagagc gagaggacag 2761 tatctgtggg gctggcccct tttctccctc tgagactcac gtcccccagg gcaagtgctt 2821 gtggaggaga gcaagtctca agagcgcagt atttggataa tcagggtctc ctccctggag 2881 gccagctctg ccccaggggc tgagctgcca ccagaggtcc tgggaccctc actttagttc 2941 ttggtattta tttttctcca tctcccacct ccttcatcca gataacttat acattcccaa 3001 gaaagttcag cccagatgga aggtgttcag ggaaaggtgg gctgcctttt ccccttgtcc 3061 ttatttagcg atgccgccgg gcatttaaca cccacctgga cttcagcaga gtggtccggg 3121 gcgaaccagc catgggacgg tcacccagca gtgccgggct gggctctgcg gtgcggtcca 3181 cgggagagca ggcctccagc tggaaaggcc aggcctggag cttgcctctt cagtatttgt 3241 ggcagtttta gttttttgtt tttttttttt taatcaaaaa acaatttttt taaaaaaaaa 3301 gctttgaaaa tggatggttt gggtattaaa aaaaaaaaaa aaaaa 27: BC038504   SNF1LK 1 atgcggcgcg gccccggagg cagcagcagc ggcggcggca gccggagcag taggcacccg 61 agcagcgcca gcggccgagc gggcggcttc ctggcctggg cgctccggtg gcggcggagg 121 tgcgcgcgga gccatggtta tcatgtcgga gttcagcgcg gaccccgcgg gccagggtca 181 gggccagcag aagcccctcc gggtgggttt ttacgacatc gagcggaccc tgggcaaagg 241 caacttcgcg gtggtgaagc tggcgcggca tcgagtcacc aaaacgcagg ttgcaataaa 301 aataattgat aaaacacgat tagattcaag caatttggag aaaatctatc gtgaggttca 361 gctgatgaag cttctgaacc atccacacat cataaagctt taccaggtta tggaaacaaa 421 ggacatgctt tacatcgtca ctgaatttgc taaaaatgga gaaatgtttg attatttgac 481 ttccaacggg cacctgagtg agaacgaggc gcggaagaag ttctggcaaa tcctgtcggc 541 cgtggagtac tgtcacgacc atcacatcgt ccaccgggac ctcaagaccg agaacctcct 601 gctggatggc aacatggaca tcaagctggc agattttgga tttgggaatt tctacaagtc 661 aggagagcct ctgtccacgt ggtgtgggag ccccccgtat gccgccccgg aagtctttga 721 ggggaaggag tatgaaggcc cccagctgga catctggagc ctgggcgtgg tgctgtacgt 781 cctggtctgc ggttctctcc ccttcgatgg gcctaacctg ccgacgctga gacagcgggt 841 gctggagggc cgcttccgca tccccttctt catgtctcaa gactgtgaga gcctgatccg 901 ccgcatgctg gtggtggacc ccgccaggcg catcaccatc gcccagatcc ggcagcaccg 961 gtggatgcgg gctgagccct gcttgccggg acccgcctgc cccgccttct ccgcacacag 1021 ctacacctcc aacctgggcg actacgatga gcaggcgctg ggtatcatgc agaccctggg 1081 cgtggaccgg cagaggacgg tggagtcact gcaaaacagc agctataacc actttgctgc 1141 catttattac ctcctccttg agcggctcaa ggagtatcgg aatgcccagt gcgcccgccc 1201 cgggcctgcc aggcagccgc ggcctcggag ctcggacctc agtggtttgg aggtgcctca 1261 ggaaggtctt tccaccgacc ctttccgacc tgccttgctg tgcccgcagc cgcagacctt 1321 ggtgcagtcc gtcctccagg ccgagatgga ctgtgagctc cagagctcgc tgcagtggcc 1381 cttgttcttc ccggtggatg ccagctgcag cggagtgttc cggccccggc ccgtgtcccc 1441 aagcagcctg ctggacacag ccatcagtga ggaggccagg caggggccgg gcctagagga 1501 ggagcaggac acgcaggagt ccctgcccag cagcacgggc cggaggcaca ccctggccga 1561 ggtctccacc cgcctctccc cactcaccgc gccatgtata gtcgtctccc cctccaccac 1621 ggcaagtcct gcagagggaa ccagctctga cagttgtctg accttctctg cgagcaaaag 1681 ccccgcgggg ctcagtggca ccccggccac tcaggggctg ctgggcgcct gctccccggt 1741 caggctggcc tcgcccttcc tggggtcgca gtccgccacc ccagtgctgc aggctcaggg 1801 gggcttggga ggagctgttc tgctccctgt cagcttccag gagggacggc gggcgtcgga 1861 cacctcactg actcaagggc tgaaggcctt tcggcagcag ctgaggaaga ccacgcggac 1921 caaagggttt ctgggactga acaaaatcaa ggggctggct cgccaggtgt gccaggtccc 1981 tgccagccgg gccagcaggg gcggcctgag ccccttccac gcccctgcac agagcccagg 2041 cctgcacggc ggcgcagccg gcagccggga gggctggagc ctgctggagg aggtgctaga 2101 gcagcagagg ctgctccagt tacagcacca cccggccgct gcacccggct gctcccaggc 2161 cccccagccg gcccctgccc cgtttgtgat cgccccctgt gatggccctg gggctgcccc 2221 gctccccagc accctcctca cgtcggggct cccgctgctg ccgcccccac tcctgcagac 2281 cggcgcgtcc ccggtggcct cagcggcgca gctcctggac acacacctgc acattggcac 2341 cggccccacc gccctccccg ctgtgccccc accacgcctg gccaggctgg ccccaggttg 2401 tgagcccctg gggctgctgc agggggactg tgagatggag gacctgatgc cctgctccct 2461 aggcacgttt gtcctggtgc agtgagggca gccctgcatc ctggcacgga cactgactct 2521 tacagcaata acttcagagg aggtgaagac atctggcctc aaagccaaga actttctaga 2581 agcgaaataa gcaatacgtt aggtgttttg gctttttagt ttatttttgt tttatttttt 2641 tcttgcactg agtgacctca actttgagta gggactggaa actttaggaa gaaagataat 2701 tgaggggcgt gtctgggggc gggggcagga ggggagcggg gtggagggaa cacgtgcagt 2761 gccgtggtgt ggggatctcg gcccctctct ctgggttcgt cgtggttgag atgattacct 2821 cggacgtcta cggaaacgag cgggcgcatt gttgtccgct tgtgtgtgtg tgtgtgtgtg 2881 tgtgtgtgcg cgtgcattga ttactatcca tttctttagt caacgctctc cacttcctga 2941 tttctgcttt aaggaaaact gtgaactttc tgcttcatgt atcagtttta aagcagccca 3001 ggcaaagatc atctacagat tctaggaatt ctctcccctg aaatcaaaac ctggaagact 3061 tttttttctt attttagttg agaagtttca taaactgctc aaggattagt tttccaggac 3121 tctgcggagg aacggcagga agaacctcag agagggcaga ggtgacttca aagtgctggg 3181 gactccgtcc tgagggtcac ttggccctga gcccctgcgt gcccttgcgg aagcccagaa 3241 gcttcttcct gctgcacctc ccgtttccgc tgctgctgac gtttatgcat ttcatgatgg 3301 ggtccaacaa gaacacctga cttgggtgaa gttgtgcaat attggaggct gactgtaggg 3361 ctgggcagct gggagacagg ctcatggctc atggctcatg gctcagggcg gtgcctgcca 3421 tgggccggga cccccctccc caccccccac ctaggctttt tgggttttgt tcaaggaagg 3481 taaagtgaga ggtttaggtc agtgttttta agtttttgtt ttttttttaa agcaaatcct 3541 gtatatgtat ctacatggga gacaggtaga cactacttat ttgttacatt ttgtactaca 3601 cgtttgtgtt ccaggtttca gcttccctcg ctcctgttgt taagaagcgt ccctgtcagc 3661 acaggtgtgc attgaggaag gggccccagg gccttcgctc cctcagcact ggggtggagg 3721 cggcaggaag gggcggccct tacctggcag gtctgggcgc acctttagca ggtggactcc 3781 gtggggctcc accagccaga agcctttgga aggcaacgaa ggcaatgctg ctccctgagt 3841 ccagtccccg cccccaaacc cagcccaggt gccttcagct acttcggctt cttaaaccct 3901 gcagtgttaa acagaggcat tgagaaaggg gaaaggcggg tatttttaaa agccaaagat 3961 tgacccagtt acttgagggt agggaggcgg gcccagtgca ggaggctgca tccctggcct 4021 gctggtgccc accgggggct gtgcctgtgc cgggccgcag ggaagctggc tgcccccatt 4081 cctgctgctg ctgctgctgc tgctctgtgg ctgtttcaaa gactgggcga aaggctgtcc 4141 ggagggcaga ccaggtgcct tgccgcagag aaaacaccaa agtctcctgt tcgctcataa 4201 agaagttttt gggatgggag agaatccaga ccatcttggg gcagccaggc ccttgccttc 4261 atttttacag aggtagcaca attgattcca acacaaaact tccccttttt aaaatgattt 4321 ctgttctaat gccatagatc aaaggcctca gaaaccattg tgtgtttcct ctttgaagca 4381 atgacaagca ctttactttc acggtggttt ttgttttttc ttattgctgt ggaacctctt 4441 ttggaggacg ttaaaggcgt gttttacttg tttttttaag agtgtgtgat gtgtgttttg 4501 tagatttctt gacagtgctg taatacagac ggcaatgcaa tagcctattt aaagacacta 4561 cgtgatctga ttgagatgta catagttttt ttttttacca taactgaatt attttatctc 4621 ttatgttaac atgagaaatg tatgccaaat gattagttga tgtatgtttt ttaatttaat 4681 atttaaataa aatatttggg agtataaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 4741 aaaaaaaaaa aaaaaaaaaa aa 28: U78556   CRA 1 cacacctttc caaggacccc caaactctgc tccgtgcacg tcaaatgctc ctttcccttg 61 tgtccaaccc cctacccctc tccctaacac ccctcttctc aacaagactc agcctctccc 121 cgaggtgggt gagcatcctt gaggtttccc acccttaact gctgtgtccc cggatggagc 181 cagagaaatg tggtgggggg gccggggcag agtttcaaca ttgcccccca gaaggaggag 241 ccagagatgg ggtctgtcca ggaaaacagg atgccggagc ccaggagtcg tcagcctagc 301 agttgcctgg cctccagatg cctcccaggg gagcagatcc tagcatgggc cccaggggtg 361 aggaagggcc tggaaccaga attgtctgga accctgatct gtaccaactt tagggtcacc 421 ttccagccct gtggatggca gtggaatcag gacactccct tgaacagtga atacgatttt 481 gccctggtca acattggacg attagaggct gtgagcggct tgtcccgagt ccagctcctc 541 cgtccagggt ccctgcataa atttatccct gaggagattc tgattcatgg ccgagacttc 601 cggctgctca gagttggttt tgaggctgga ggcctagagc ctcaggcttt tcaggtgacc 661 atggccattg tccaagccag agctcagagc aatcaagccc aacagtattc ggggataacc 721 ctgagcaagg ctggccaggg ttctggctcc agaaaaccac caattcctct catggagaca 781 gcggaagact gggagactga gcggaagaag caggcagcca gaggctggag ggtcagcacg 841 gtcaacgaga ggttcgacgt agccaccagc ctcccccgtt acttctgggt ccctaaccga 901 attctggaca gtgaggtcag gagagcattt ggccactttc atcagggccg tggaccggtc 961 agtgtgatgg ttagggtaat ggctgtggat tagagggtca tgtgggccag ggacatcgtg 1021 gagggaggaa cctctgtgag gtcagtgtgg gggcaagggt agcgtggagc taggcatttc 1081 tcccacaatg accctcttct gccccatgtg aagcgcttgt cctggcatca ccctgggggc 1141 agtgatcttc tccgctgtgg aggcttctat acagccagtg accctaacaa ggaggatatc 1201 agagcagtgg agttgatgca ccaggctggg cattcagatg ttgtcctggt agacactatg 1261 gatgagctgc ccagccttgc agatgtccaa cttgcccacc tgaggctgag ggccctctgc 1321 ctgcctgatt catctgtagc tgaggataaa tgctttcagc cctggaagga acacgatggc 1381 tggactatgt cagggcttgt cttcgaaagg ccagtgacat ttcagtatta gtgacatcca 1441 gggttcgttc tgtaatactt caaggctccg gtgtttctcc tcttccttga ttgtgtctgg 1501 cagctcctcc agcagtttcc agctgatttt gaattctctg agtttttcct tcttgctctt 1561 catgacagtg tcagggttcc tgacaccctt accttcctga gaaatacccc ctgggagcgc 1621 ggaaagcaga gcggacaggt cagtgacttc tatttttgac tcgtgttttt ttttccattg 1681 agatgtactc tctgaagttt ggtcttgatt tgttttatga gaagtgaggt ctgtgagtgg 1741 ggagggggag atttattctc attttcagga cgagactttt gccctacatc tttcctagaa 1801 taagaggtga gaatctcatg atttgtctct agatgtggga ggattgtgtg taaccatcct 1861 ttttcttgct tcctctgtcc agttaaactc ctatacacaa gtctacaccc caggatactc 1921 cagcctccag ctgggaactc ttttaacctg cagctgtctg tctgggactg ggatttacgt 1981 tatagcaatg cacagatact acaattccag aatcctggct atgacccaga acactgtcca 2041 gattcctggc tccctagacc acagccaagc ttcatggttc ctggaccccc cagttttgtg 2101 tggctcttct ctagaggagc attgaccccc ctgaatcagc tctgtccttg gcgggacagt 2161 ccttccctgc tggcagtctc ttctcgttgg ctccctcgac ctgctatctc ctctgaaagc 2221 tggctgacca ggaatggggt ctcccctcac attggggagc ttgcccttta cctccagggc 2281 tgctgctgcc tgggtatctg ggaccccaga tcaggctctg gagacgctgc tacctgaggg 2341 gaaggcctga ggtccaggta agaagggaaa atagactggg agtgggacaa gggacttgac 2401 tctgctgaac cagatgaaca ggagctggaa aggcaaggag ctgaagcctc tgggagtctg 2461 ggaagtgaag ttctactcct cttggcatca aacaaggttt gggagtgtag gaggtgcggg 2521 aaagtgcttg tggcttagat taagtggaat ttagggcata gctgaaaggg gaaacagaat 2581 taaagacacc agaagtagca gagaagcagg gggccagagc tacaacagta ttcttctctg 2641 ttcctctttg cctcctcccc agatgggcct ctcatctccc acaatctctg gcctccagga 2701 tgagctatcc catcttcagg agttattacg gaaaggacac caagaatatc tcctgaggat 2761 cactccaaga aaagagatcc acataccatt ctcaatccca ctgaaattgc tggcattctc 2821 aaaggcaggg cagaggggga tctggggtag agggagggtt ctgtctaatc tttttttttt 2881 cttttgtatc tgcacttgca gcctcagctt tcatacttca gcccttaagt tcactaagaa 2941 ggtctgagtt tctgctgcag atagtggtgt taactgctcc aactcttgtc ttgcttagtt 3001 tctacaaata tttttgcttc ttgtcatttg aaggattaag aaacaaaaac aatccagaaa 3061 ttgatcggtt tttttaggcc aatcccatcc cttctggata accagatgtt aaatcatgag 3121 atcagagatg ctgttcatca gtcccaacaa gatggcctag aaatcgcatt ctcacctcgc 3181 cttgctgctg ctttaattcc aagttctatt tcttccctta tagttttcta tgggaatgag 3241 gcggatacag gaaacaccct atctcctctg tatttttgta gtggaatttc tatttaaggg 3301 gctcattaaa gcatagtatt tatacac 29: BC035625   EGR2 1 gagcaattga ttaatagctc ggcgagggga ctcactgact gttataataa cactacacca 61 gcaactcctg gcttcccagc agccggaaca cagacaggag agagtcagtg gcaaatagac 121 atttttctta tttcttaaaa aacagcaact tgtttgctac ttttatttct gttgattttt 181 ttttcttggt gtgtgtggtg gttgttttta agtgtggagg gcaaaaggag ataccatccc 241 aggctcagtc caacccctct ccaaaacggc ttttctgaca ctccaggtag cgagggagtt 301 gggtctccag gttgtgcgag gagcaaatga tgaccgccaa ggccgtagac aaaatcccag 361 taactctcag tggttttgtg caccagctgt ctgacaacat ctacccggtg gaggacctcg 421 ccgccacgtc ggtgaccatc tttcccaatg ccgaactggg aggccccttt gaccagatga 481 acggagtggc cggagatggc atgatcaaca ttgacatgac tggagagaag aggtcgttgg 541 atctcccata tcccagcagc tttgctcccg tctctgcacc tagaaaccag accttcactt 601 acatgggcaa gttctccatt gaccctcagt accctggtgc cagctgctac ccagaaggca 661 taatcaatat tgtgagtgca ggcatcttgc aaggggtcac ttccccagct tcaaccacag 721 cctcatccag cgtcacctct gcctccccca acccactggc cacaggaccc ctgggtgtgt 781 gcaccatgtc ccagacccag cctgacctgg accacctgta ctctccgcca ccgcctcctc 841 ctccttattc tggctgtgca ggagacctct accaggaccc ttctgcgttc ctgtcagcag 901 ccaccacctc cacctcttcc tctctggcct acccaccacc tccttcctat ccatccccca 961 agccagccac ggacccaggt ctcttcccaa tgatcccaga ctatcctgga ttctttccat 1021 ctcagtgcca gagagaccta catggtacag ctggcccaga ccgtaagccc tttccctgcc 1081 cactggacac cctgcgggtg ccccctccac tcactccact ctctacaatc cgtaagccct 1141 ttccctgccc actggacacc ctgcgggtgc cccctccact cactccactc tctacaatcc 1201 gtaactttac cctggggggc cccagtgctg gggtgaccgg accaggggcc agtggaggca 1261 gcgagggacc ccggctgcct ggtagcagct cagcagcagc agcagccgcc gccgccgccg 1321 cctataaccc acaccacctg ccactgcggc ccattctgag gcctcgcaag taccccaaca 1381 gacccagcaa gacgccggtg cacgagaggc cctacccgtg cccagcagaa ggctgcgacc 1441 ggcggttctc ccgctctgac gagctgacac ggcacatccg aatccacact gggcataagc 1501 ccttccagtg tcggatctgc atgcgcaact tcagccgcag tgaccacctc accacccata 1561 tccgcaccca caccggtgag aagcccttcg cctgtgacta ctgtggccga aagtttgccc 1621 ggagtgatga gaggaagcgc cacaccaaga tccacctgag acagaaagag cggaaaagca 1681 gtgccccctc tgcatcggtg ccagccccct ctacagcctc ctgctctggg ggcgtgcagc 1741 ctgggggtac cctgtgcagc agtaacagca gcagtcttgg cggagggccg ctcgcccctt 1801 gctcctctcg gacccggaca ccttgagatg agactcaggc tgatacacca gctcccaaag 1861 gtcccggagg ccctttgtcc actggagctg cacaacaaac actaccaccc tttcctgtcc 1921 ctctctccct ttgttgggca aagggctttg gtggagctag cactgccccc tttccaccta 1981 gaagcaggtt cttcctaaaa cttagcccat tctagtctct cttaggtgag ttgactatca 2041 acccaaggca aaggggaggc tcagaaggag gtggtgtggg gacccctggc caagagggct 2101 gaggtctgac cctgctttaa agggttgttt gactaggttt tgctacccca cttcccctta 2161 ttttgaccca tcacaggttt ttgaccctgg atgtcagagt tgatctaaga cgttttctac 2221 aataggttgg gagatgctga tcccttcaag tggggacagc aaaaagacaa gcaaaactga 2281 tgtgcacttt atggcttggg actgatttgg gggacattgt acagtgagtg aagtatagcc 2341 tttatgccac actctgtggc cctaaaatgg tgaatcagag catatctagt tgtctcaacc 2401 cttgaagcaa tatgtattat aaactcagag aacagaagtg caatgtgatg ggaggaacat 2461 agcaatatct gctccttttc gagttgtttg agaaatgtag gctatttttt cagtgtatat 2521 ccactcagat tttgtgtatt tttgatgtac actgttctct aaattctgaa tctttgggaa 2581 aaaatgtaaa gcatttatga tctcagaggt taacttattt aagggggatg tacatatatt 2641 ctctgaaact aggatgcatg caattgtgtt ggaagtgtcc ttggtgcctt gtgtgatgta 2701 gacaatgtta caaggtctgc atgtaaatgg gttgccttat tatggagaaa aaaatcactc 2761 cctgagttta gtatggctgt atatttctgc ctattaatat ttggaatttt ttttagaaag 2821 tatatttttg tatgctttgt tttgtgactt aaaagtgtta cctttgtagt caaatttcag 2881 ataagaatgt acataatgtt accggagctg atttgtttgg tcattagctc ttaatagttg 2941 tgaaaaaata aatctattct aacgcaaaac cactaactga agttcagata atggatggtt 3001 tgtgactata gtgtaaataa atacttttca acaataaaaa aaaaaaaaaa aaaaaaaaaa 3061 a 30: X52426   KRT13 1 ggccaagcaa gcttctatct gcacctgctc tcaatcctgc tctcaccatg agcctccgcc 61 tgcagagctc ctctgccagc tatggaggtg gtttcggggg tggctcttgc cagctgggag 121 gaggccgtgg tgtctctacc tgttcaactc ggtttgtgtc tgggggatca gctgggggct 181 atggaggcgg cgtgagctgt ggttttggtg gaggggctgg tagtggcttt ggaggtggct 241 atggaggtgg ccttggaggt ggctatggag gtggccttgg aggtggcttt ggtgggggtt 301 ttgctggtgg ctttgttgac tttggtgctt gtgatggcgg cctcctcact ggcaatgaga 361 agatcaccat gcagaacctc aacgaccgcc tggcttccta cctggagaag gtgcgcgccc 421 tggaggaggc caacgctgac ctggaggtga agatccgtga ctggcacctg aagcagagcc 481 cagctagccc tgagcgggac tacagcccct actacaagac cattgaagag ctccgggaca 541 agatcctgac cgccaccatt gaaaacaacc gggtcatcct ggagattgac aatgccaggc 601 tggctgtgga cgacttcagg ctcaagtatg agaatgagct ggccctgcgc cagagcgtgg 661 aggccgacat caacggcctg cgccgggtgc tggatgagct cactctgtct aagactgacc 721 tggagatgca gatcgagagc ctgaatgaag agctagccta catgaagaag aaccatgaag 781 aggagatgaa ggaatttagc aaccaggtgg tcggccaggt caacgtggag atggatgcca 841 ccccaggcat tgacctgacc cgcgtgctgg cagagatgag ggagcagtac gaggccatgg 901 cagagaggaa ccgccgggat gctgaggaat ggttccacgc caagagtgca gagctgaaca 961 aggaggtgtc taccaacact gccatgattc agaccagcaa gacagagatc acggagctca 1021 ggcgcacgct ccaaggcctg gagattgagc tgcagtccca gctgagcatg aaagcggggc 1081 tggagaacac ggtggcagag acggagtgcc gctatgccct gcagctgcag cagatccagg 1141 gactcatcag cagcatcgag gcccagctga gcgagctccg cagtgagatg gagtgccaga 1201 accaagagta caagatgctg ctggacatca agacacgtct ggagcaggag atcgccacct 1261 accgcagcct gctcgagggc caggacgcca agaagcgtca gcccccgtag cacctctgtt 1321 accacgactt ctagtgcctc tgttaccacc acctctaatg cctctggtcg ccgcacttct 1381 gatgtccgta ggccttaaat ctgcctggcg tcccctccct ctgtcttcag cacccagagg 1441 aggagagagc cggcagttcc ctgcaggaga gaggaggggc tgctggaccc aaggctcagt 1501 ccctctgctc tcaggacccc ctgtcctgac tctctcctga tggtgggccc tctgtgctct 1561 tctcttccgg tcggatctct ctcctctctg acctggatac gctttggttt ctcaacttct 1621 ctaccccaaa gaaaagatta ttcaataaag tttcctgcct ttctgcaaac ataaaaa 31: NM_005504   BCAT1 1 tttgcttgca acactggcac ctctgccctg caccccggga gtgagcagtg agtgaggctc 61 gggtctgggc gctggctccg aatcttcggg ctgggagaga ctccaccatc tgggggcggc 121 ctgggggagc agccttagtg tcttcctgct gatgcaatcc gctaggtcgc gagtctccgc 181 cgcgagaggg ccggtctgca atccagcccg ccacgtgtac tcgccgccgc ctcgggcact 241 gccccaggtc ttgctgcagc cgggaccgcg ctctgcagcc gcagacccgg tccacacggc 301 caggggctac gacccttggg atctgccctc cgctcagctc gagcttccct cgtggccgac 361 ggaacaatga aggattgcag taacggatgc tccgcagagt gtaccggaga aggaggatca 421 aaagaggtgg tggggacttt taaggctaaa gacctaatag tcacaccagc taccatttta 481 aaggaaaaac cagaccccaa taatctggtt tttggaactg tgttcacgga tcatatgctg 541 acggtggagt ggtcctcaga gtttggatgg gagaaacctc atatcaagcc tcttcagaac 601 ctgtcattgc accctggctc atcagctttg cactatgcag tggaattatt tgaaggattg 661 aaggcatttc gaggagtaga taataaaatt cgactgtttc agccaaacct caacatggat 721 agaatgtatc gctctgctgt gagggcaact ctgccggtat ttgacaaaga agagctctta 781 gagtgtattc aacagcttgt gaaattggat caagaatggg tcccatattc aacatctgct 841 agtctgtata ttcgtcctac attcattgga actgagcctt ctcttggagt caagaagcct 901 accaaagccc tgctctttgt actcttgagc ccagtgggac cttatttttc aagtggaacc 961 tttaatccag tgtccctgtg ggccaatccc aagtatgtaa gagcctggaa aggtggaact 1021 ggggactgca agatgggagg gaattacggc tcatctcttt ttgcccaatg tgaagcagta 1081 gataatgggt gtcagcaggt cctgtggctc tatggagagg accatcagat cactgaagtg 1141 ggaactatga atctttttct ttactggata aatgaagatg gagaagaaga actggcaact 1201 cctccactag atggcatcat tcttccagga gtgacaaggc ggtgcattct ggacctggca 1261 catcagtggg gtgaatttaa ggtgtcagag agatacctca ccatggatga cttgacaaca 1321 gccctggagg ggaacagagt gagagagatg tttggctctg gtacagcctg tgttgtttgc 1381 ccagtttctg atatactgta caaaggcgag acaatacaca ttccaactat ggagaatggt 1441 cctaagctgg caagccgcat cttgagcaaa ttaactgata tccagtatgg aagagaagag 1501 agcgactgga caattgtgct atcctgaatg gaaaatagag gatacaatgg aaaatagagg 1561 ataccaactg tatgctactg ggacagactg ttgcatttga attgtgatag atttctttgg 1621 ctacctgtgc ataatgtagt ttgtagtatc aatgtgttac aagagtgatt gtttcttcat 1681 gccagagaaa atgaattgca atcatcaaat ggtgtttcat aacttggtag tagtaactta 1741 ccttacctta cctagaaaaa cattaatgta agccatataa catgggattt tcctcaatga 1801 ttttagtgcc tccttttgta cttcactcag atactaaata gtagtttatt ctttaatata 1861 agttacattc tgctcctcaa acaaatgcaa ttttttgtgt gtgtttgaaa gctaatttga 1921 gaaaatttca taggttacat ttcctgcagc ctatctttat ccacagaaag tgttttcttt 1981 tttttaaatc aagactttta aaactggatt tcctcccatc actgtttttt gaaggtcctc 2041 caagtccgtg ttaaggtaaa tatctgtttt cttcctgatg tcacagcctg agcatactct 2101 gtgcattagg aagacctgag tgcatttccc accattgtcc tttccacatt atgttgtagc 2161 tggctggctg tcaggcgact acaagactga gggtcttgtg ccttatagat ctttgtatcc 2221 cccatggctg acatatagta ggtactcagt aaatggtttt ataatgaatc agtgaacatt 2281 ttgcttctat agaagtgtac cttctttgtt tctatattat gaaacctctt tattagaatt 2341 tgtgattgat tctgacagtg tatagattta ccttatattg tctttatttt ccatgagcta 2401 ctaagtcatt agagatactc tgaagcatag ttagtttagg aaatcacttc atattgattg 2461 tattagaatt atcttggaat tgaagatata tccctagagc aggggacccc aacccccagg 2521 ccatgggcca cacagcagga agaggtgagt ggtgggccat tgaggagctt catctgtatt 2581 tatggctact tcccatcact cgaattacca cctgaactcc acctcttgtc agctcagtgg 2641 cagcattaga ttctcatagg agcacaaatc ctattgtgaa ctctgcatgc aagggatcta 2701 ggctatgcgc tccttatgag aatctaatgc ttgatgacct gaggtgtaac agtttcatcc 2761 tgaaaccacc cttcaccctg cagtctgtgg aaaaattgtc ttccacaaaa ctggtccctg 2821 gtgccaaaaa tgttggggac cactgctcta gagagaggtc atgatatcat accaaccaaa 2881 tggaaatgac aaatgtttta tgtcaagtgt taattgcaga aataaatctt tttttttttt 2941 ttttggtaga aaacaaagag gcatactctg atttttatac tctgtttttg caggtgctct 3001 tttctttgaa tggagatttg atgagcaagt ggttaggatg cagggagagc tactatgggt 3061 gatattttcc ttgtttagga gctgtgagtt aaaattgtat cctttgtggt ttatctaagg 3121 aaagtcaaat cttgacagaa aacatttttc cttggaaggt caactctcag acattgtatt 3181 ttggtttccc tcagtcctca taacttcctt cttgctgaac atattttatt ctcttttcag 3241 agaaggaaaa taaaaaggat tctaaaagtt tgatgcattg gaaaaatttc cttgaggcat 3301 ttagcaacac atagaaaatg ggctttgatt cttttccaaa acttttagcc atagggtctt 3361 ttatagacag ggatagtaaa atgaaaattg agaaatataa gatgaaaagg aatgataaaa 3421 atatctttta gggggctttt aattggtgat ctgaaatctt gggagaagct gttcttttca 3481 ggcctgaggt gctcttgact gtcgcctgcg cactgtgtac cccgagcaac attctaaggg 3541 tgtgctttcg ccttggctaa ctcctttgac ctcattcttc atatagtagt ctaggaaaaa 3601 gttgcaggta atttaaactg tctagtggta catagtaact aaatttctat tcctatgaga 3661 aatgagaatt atttatttgc catcaacaca ttttatactt tgcatctcca aatttattgt 3721 ggcgagactt gtccattgtg aaagttagag aacattatgt ttgtatcatt tctttcataa 3781 aacctcaaga gcatttttaa gcccttttca tcagacccag tgaaaactaa ggatagatgt 3841 ttaaaaactg gaggtctcct gataaggaga acacaatcca ccattgtcat ttaagtaata 3901 agacaggaaa ttgaccttga cgctttcttg ttaaatagat ttaacaggaa catctgcaca 3961 tcttttttcc ttgtgcacta tttgtttaat tgcagtggat taatacagca agagtgccac 4021 attataacta ggcaattatc cattcttcaa gacttagtta ttgtcacact aattgatcgt 4081 ttaaggcata agatggtcta gcattaggaa catgtgaagc taatctgctc aaaaagatca 4141 acaaattaat attgttgctg atatttgcat aattggctgc aattatttaa tgtttaattg 4201 ggttgatcaa atgagattca gcaattcaca agtgcattaa tataaacaga actggtggca 4261 cttaaaatga taatgattaa cttatattgc atgttctctt cctttcactt ttttcagttt 4321 ctacatttca gaccgagctt gtcagctttt ttgaaaacac atcagtagaa accaagattt 4381 taaaatgaag tgtcaagaca aaggcaaaac ctgagcagtt cctaaaaaga tttgctgtta 4441 gaaattttct ttgtggcagt catttattaa ggattcaact cgtgatacac caaaagaaga 4501 gttgacttca gagatgtgtt ccatgctctc tagcacagga atgaataaat ttataacacc 4561 tgctttagcc tttgttttca aaagcacaaa ggaaaagtga aagggaaaga gaaacaagtg 4621 actgagaagt cttgttaagg aatcaggttt tttctacctg gtaaacattc tctattcttt 4681 tctcaaaaga ttgctgtaag aaaaaatgta agacaaaaaa aaaaaaaaaa aacaaacaga 4741 ggcagaggca ggcagtagca agaaagcaga gcgtaacatc agctagatgg taacatgcaa 4801 tgtcagctct cttgaagaca tgggaaacct aagttacacc ttgggttaaa attcttcacc 4861 atattagttt tgttgcttca taaaatttac ctaagcaagt ggtcttgctt gcctcaaatc 4921 caagcagtct tgaacacttg gaggcaatta atgagtatat cttagtcaaa agaattgttg 4981 gagcttttta ttaaagctac agtttcagtt ctgcttttgg ggaattgtgc tatgaaagca 5041 gctgccaaaa taagctcatt tattttcttc aatcccactc agtgctcagt cactatattc 5101 tgtttccttt ttttttttca agttgcatat ttggtttccc cttatgattg ggaaagatga 5161 attttcagca gaaaacattg tttgttcact ttcaaagagt gatagtttct aaaacattta 5221 gagcaataaa tattcatcag aggtaccaag taagccggca gaagagttaa gggttagaga 5281 aatcccttat ttcatgtctt gactctaaaa ttatcaaagt acttttcctt gtaatgtgga 5341 tttcttctta tgcggatatg caaaaacttc agttatacgt agtaatgcta gcaggtaatt 5401 ttagtagaca ttttataaca actgtcactt tgtttcgcca catgtagagt ttgttcagct 5461 attttccaga tatctcccca caaaaggagg caaagggtac cagcttttca atgagcatta 5521 cctattactt ggcaaagatg atgaagactc tattaatagt tcatttgata aatgttgaca 5581 taaccaacaa tagagattag gaagttagtt ttaagaaatc aatggcatat agacattacc 5641 ctcatggagt ttgtattcta ctacttgaac tgattgtagc tataaaagca tagttagata 5701 gctgaatagt tagatcataa gcaaagaagg ccagaacaca tctcttatca agaaatcaat 5761 gaatagttta tctcattttt aaagcaactt tatccttctt taattccttc ctttcttcta 5821 gtgcaaaact acttaataag gttggtgttt aggttagtgt tcacaccatt cctcatctgg 5881 tgtgaattac cttctctttc tttactattt actaccaacc tagtacatgt gttgactgaa 5941 ttcttttcaa acaatgttga gttatcatgg tgcacctaat aaattaacac cacagattac 6001 agcatccttg ctgattttct cagcaaagcc agattagatg gaaataaaca aagaaaatga 6061 tcctagagtg aatttttcta gaaaatatct attatgaacc atgctgttta aagtattagc 6121 ttgaaggtga tggatccagc tattcagaaa ataactttca tataaccatg attttgcaca 6181 gtatgaggtc ttaaatgtgt ggaaagagat aaatttttta tcattaccac aaaccccttt 6241 taaagattca aaggtggaag aaagtgattt attttttctc ttcagcatac atatataaaa 6301 gacttgtcag atgtttaatt tggggaggtt gataatgaaa catatcaaca gagtatagta 6361 gttatagtag tgtttgtggg taaataattt cctggggtca gacatatata aacatatttg 6421 cttcaaaatg ataaaggcat gaaatcagtc ttaaaaattg aaatgggggt gatgggggag 6481 aaaaagaaga acaaatttga agtgcccttt caaatctgct ggatacaagt attgaagttt 6541 taagtcatct tattctgtct gaaagtgtat ttttcattct acaatagacc caatcaacaa 6601 gacgtataac ttgagttgca tgatgttcag tttatgtaat ctactgttgg gatggtaaga 6661 attgatgtag gctgtggtgt aagaatgaat taaaatatag tttcactggc ttttctctac 6721 atatccacta tcacaatggc taggtttcct gttgctcact attggattct ggagaaaaat 6781 ttaatgaaag atgatatcag aggaagaata agtggaggta gagaagaaag gaatgataga 6841 ggaggggaaa aaaacaaaac atatttttgt gttatccaaa ggagcttttt ccttattctg 6901 tcaagcattg agatcttctt cagctttcaa tgtagttgct aaatacaaat aatgctacta 6961 ggtagtgact aaatatagca aacacttcat cagatattag aattaggtca cactattgag 7021 gttataatct gaaggttgtg ttacatagaa accactttag attattatca acttggacta 7081 ggctttattt tataatagca tagtaagtaa tatctattgt gtcatttctt caaccatttt 7141 attctaagat ccatgaagct tcttgaggcc aaataaaata ataagtttag acaagaagta 7201 gattgtgact tttttccctt agagatacta tttactatct cctatcctga taggtggaag 7261 gtttactgaa ttggaaattg gttgactatt agtttttaac taaaatgtgc aataacacat 7321 tgcagtttcc tcaaactagt ttcctatgat cattaaactc attctcaggg ttaagaaagg 7381 aatgtaaatt tctgcctcaa tttgtacttc atcaataagt ttttgaagag tgcagatttt 7441 tagtcaggtc ttaaaaataa actcacaaat ctggatgcat ttctaaattc tgcaaatgtt 7501 tcctggggtg acttaacaag gaataatccc acaatatacc tagctaccta atacatggag 7561 ctggggctca acccactgtt tttaaggatt tgcgcttact tgtggctgag gaaaaataag 7621 tagttcgagg aagtagtttt taaatgtgag cttatagata gaaacagaat atcaacttaa 7681 ttatgaaatt gttagaacct gttctcttgt atctgaatct gattgcaatt actattgtac 7741 tgatagactc cagccattgc aagtctcaga tatcttagct gtgtagtgat tcttgaaatt 7801 ctttttaaga aaaattgagt agaaagaaat aaaccctttg taaatgaggc ttggcttttg 7861 tgaaagatca tccgcaggct atgttaaaag gattttagct cactaaaagt gtaataatgg 7921 aaatgtggaa aatatcgtag gtaaaggaaa ctacctcatg ctctgaaggt tttgtagaag 7981 cacaattaaa catctaaaat ggctttgtta caccagagcc atctggtgtg aagaactcta 8041 tatttgtatg ttgagagggc atggaataat tgtattttgc tggcaataga cacattcttt 8101 attatttgca gattcctcat caaatctgta attatgcaca gtttctgtta tcaataaaac 8161 aaaagaatcc tgtttgtgtg gtttcatgaa a 32: NM_006643   SDCCAG3 1 cacgggcgga gccggggcca tggagccgcc gctgccgggc taggcaggtc gtgccccgcc 61 gggccggcgg cgatgtcggg ctaccagcgc cacccgggcg ccaccccgct gtcccgagcc 121 cggagcctcg ccattcccga cgctccagcg ttctatgagc gccggtcttg tctcccccag 181 ctaaattgtg agcgccccca tggcagggac ctggactccc ccttcttcgg cattcggccg 241 gcctttatgt gctatgtgcc cagcccggtg ctggcttccg tgggagacac agatgacaga 301 tttgaagatc tggaagaggc aaatccattc tcttttagag agtttctgaa gaccaagaac 361 ctcggcctct cgaaagagga tccggccagc agaatttatg caaaggaagc ctcgaggcat 421 tccctgggac ttgaccacaa ctccccaccc tcccaaaccg gcgggtatgg cctggagtat 481 cagcagccat ttttcgagga tccgacaggg gctggtgacc tcctggatgg ggaggaggat 541 gaggacaccg gatggagtgg ggcctacctg ccgtccgcca tcgagcagac tcaccccgag 601 agggtccctg ccggcacgtc gccctgcagc acataccttt cctttttctc caccccgtcg 661 gagctggcag ggcctgagtc tctgccctcg tgggcgttga gtgacactga ttctcgcgtg 721 tctccggcct ctccggcagg gagtcctagc gcagactttg cggttcatgg agagtctctg 781 ggagacaggc acctgcggac gctgcagata agttacgacg cactgaaaga tgaaaattct 841 aagctgagaa gaaagctgaa tgaggttcag agcttctctg aagctcaaac agaaatggtg 901 aggacgcttg agcggaagtt agaagcaaaa atgatcaagg aggaaagcga ctaccacgac 961 ctggagtcgg tggttcagca ggtggagcag aacctggagc tgatgaccaa acgggctgta 1021 aaggcagaaa accacgtcgt gaaactaaaa caggaaatca gtttgctcca ggcgcaggtc 1081 tccaacttcc agcgagagaa tgaagccctg cggtgcggcc agggcgccag cctgaccgtg 1141 gtgaagcaga acgccgacgt ggccctgcag aacctccggg tggtcatgaa cagtgcacag 1201 gcttccatca agcaactggt ttccggagct gagacactga atcttgttgc cgaaatcctt 1261 aaatctatag acagaatttc tgaaattaaa gacgaggagg aagactcttg aggacccctg 1321 ggtgttctca gcatgaagct ccgtgtatac cctgaggtca ccaccgctcg atctaaatgt 1381 gcagttgtgt ccttaaatat gcagtcttca cccagagtaa agtgttgatc gcaagagtcc 1441 agtgtcgtgc cctcagccag ttcttggcca ccacaatggg agcagccctg gccgagttgt 1501 ctctgtggtt tctatgcagc ccttcttggc gaaattcctg cgatcttata gattctaatg 1561 agctcttgga agacattgtc ataaaagcca gtgattttaa gaaaaagagt ggttctggaa 1621 tcagtgtttt ccagtcccat cccagaacat cagttgtaag ataagtacaa ttggttgtcc 1681 ttgatttcat aagtagaaca aacactaaat gtgcctctga gatggccacc ccgggcaggg 1741 acctgtgcct tccaccgatg ctcagggctc cctctggctc ccgggtcact cttgtggccc 1801 cagtgggtgg tccctgcagt catggcctga gtgcgcaggg gccaccgcgt ggctgccgct 1861 gtcctcctcc gggacccacg gggaccaagg tcacacgttc cgtgctgtga agctgtccag 1921 atgtgcctct ttggctgggg gttctggtgg acgtttcaag tggcattttg tacaatgcag 1981 gttagaattc aggaatttca agtatgtgcc cgggtctgtc aggtcccagt tgcctttctg 2041 acggcccccc tcagagggac ggcgatgagc actaaatgct tttttgacta ttttcctata 2101 gatttttttt aaaacttttt tttcctcctg ttccaattga tagctttctt atttaataaa 2161 ttctgtagtt caccaaaaaa aaaaaaaaaa a 33: AA464095   PIGK 1 atatattccc agctagttga aaatgatgat tcccacaaga agcataactc agcttgtttc 61 tgcttactga gtattttcta ctatggtata tattgataac atttcttcca ttatgtatgt 121 tgtataccag agttacagtt actgtgggaa tcataatttg aaattttgac tcctgtgttt 181 ctggaatctt tacaacaaat gttgcattaa catataactt ttttcagttg actttaccaa 241 aattaagccc atctttagta gatactgttt taacatgtga aagaaatacg ttataaacat 301 accacaagat atggctataa aacaatgaga tcagtatcca tttttgcttt aaagaattgg 361 ccttattgct tcagtgtcac atctcatact caagggcatt tactacaaay aaagagttct 421 ccaatattgc tgttctgttg ctgcctgccc tatttacaca tgt 34: AA961188   MRPS9 1 tttacactta tagtagactt tatttagtga atccaaatga catgtgataa ttgtttggaa 61 aggcctattg attttatatc tgatcattca atccagagac attaaattca gttgattaat 121 ggagttcccc aactgtaaga cttctttacg agattatttt caagctttga aaagatcttc 181 tgagataaag gggatcagca aacagtaaga gtgtgttgct atacccaagc aaaagaaata 241 aatcttaatc tctcagcaaa tcattcaaaa tgtcagaaat gttagtgttt ctatatcttg 301 gtaaaatgga ttgattgaga agtatgaaaa gtataacagt ggcatgcaga atattgtttt 361 tatgaatatt cagaatttca gttgtttaca taa 35: NM_0181836   ASPM 1 atggcgaacc ggcgagtggg gcgaggctgc tgggaagtga gcccgaccga gcggaggccg 61 cccgcggggc tgcggggccc cgcggccgag gaggaggcgt cttccccgcc ggtcctgtct 121 ctcagccact tctgcaggtc tcctttcctt tgcttcgggg acgttctcct gggagcctca 181 cggacgctgt ctctggccct agacaaccct aacgaggagg tggcagaagt gaagatctcc 241 cacttcccgg ccgcggacct gggcttcagt gtgtcgcagc gctgtttcgt gttgcagcct 301 aaagagaaaa ttgttatttc tgttaactgg acaccactca aagaaggccg agtaagagag 361 attatgacat ttcttgtaaa tgatgttctg aaacaccaag ctatattact aggaaatgca 421 gaagagcaga aaaagaaaaa gaggagtctt tgggatacca ttaaaaagaa gaaaatttca 481 gcctctacaa gtcacaacag aagggtttca aatattcaga atgttaataa aacatttagt 541 gtttcccaaa aagttgacag agttaggagc ccactacaag cttgtgaaaa cttggctatg 601 aatgaaggcg gtcccccaac agaaaacaat tctttaatac ttgaagaaaa taaaataccc 661 atatcaccta ttagccctgc tttcaatgaa tgccatggtg caacttgctt gccactctct 721 gtacgtcgat ctactaccta ctcatctctt catgcatcag aaaataggga actattaaat 781 gtacacagtg ccaacgtttc aaaagtttct tttaatgaga aagctgtaac tgaaacttcc 841 tttaattctg taaatgttaa tggccaaaga ggagagaata gtaaacttag tcttaccccc 901 aactgttctt caactttgaa cattacacaa agccaaatac attttctaag tccagattct 961 tttgtaaata atagtcatgg agctaataat gaactagaat tagtaacatg tctttcatca 1021 gatatgttta tgaaagataa ttcacagcct gtgcatttgg aatcaacaat tgcacatgaa 1081 atttatcaga aaattttaag tccagattct ttcataaaag ataattatgg actaaatcag 1141 gatctagaat cagagtcagt taatcctatt ttatccccta atcaattttt aaaagataac 1201 atggcatata tgtgtacatc tcagcaaaca tgtaaagtac cattatcaaa tgaaaattct 1261 caagtcccac agtctcctga agattggaga aaaagtgaag tttcgccacg tattcctgaa 1321 tgtcagggtt caaaatctcc caaagctatt tttgaagaac tagtagaaat gaagtcaaat 1381 tactacagtt ttataaaaca aaataatcct aaattttctg cagttcagga tatttctagt 1441 catagccaca ataaacaacc taagagacgt ccaatacttt ctgccactgt tactaaaagg 1501 aaggccacct gtaccagaga aaaccaaact gagattaata aaccaaaagc aaaaagatgt 1561 ctcaacagtg cagtgggtga acatgaaaaa gtaataaata atcaaaagga aaaagaagat 1621 tttcattctt atcttccaat tatagatcca atattaagta aatctaagag ttataaaaac 1681 gaggtaacac cctcttcgac aacagcttca gttgctcgga aaagaaagag cgatggaagc 1741 atggaagatg caaatgtgag agttgcaatt acagaacata cagaagtgcg agaaatcaaa 1801 agaatccatt tttctccctc agagcctaaa acatcagctg ttaagaaaac aaaaaatgtg 1861 acaacaccca tctcaaaacg tattagcaac agagagaaat taaacctgaa gaagaaaact 1921 gatttatcaa tattcagaac tccaatttct aaaacaaaca aaaggacaaa acccattatc 1981 gctgtggcac agtccagttt gaccttcata aaaccattaa aaacagatat tcccagacac 2041 ccgatgccat ttgctgcaaa aaacatgttt tatgatgaac gctggaagga aaagcaggaa 2101 cagggcttca cttggtggtt aaattttata ttaacccctg atgacttcac tgtaaaaaca 2161 aatatttctg aagtaaatgc tgctactctt cttttgggaa tagagaatca acataaaata 2221 agtgttccta gagcacctac aaaagaggaa atgtctctca gagcttatac tgctcggtgt 2281 aggttaaaca gactacgtcg tgcagcatgc cgtttgttta cttctgaaaa aatggttaaa 2341 gctattaaaa agcttgaaat tgaaattgaa gctaggcggt taattgttcg aaaagataga 2401 cacctatgga aagatgtggg agaacgtcag aaagtcctga attggctgtt gtcctacaat 2461 cctttgtggc ttcgaattgg tctagagaca acttatggag aactcatatc tttggaagat 2521 aacagtgatg tcacagggtt ggctatgttt attctgaatc gcctactttg gaatcctgat 2581 atagcagctg agtatagaca ccccactgtt cctcacctgt atagagatgg tcatgaagaa 2641 gctttgtcca agtttacatt gaaaaagtta ttgttgttgg tctgttttct tgattatgct 2701 aaaatttcca gactcattga tcatgatcct tgtctcttct gtaaagatgc cgaattcaag 2761 gctagtaaag aaatcctttt ggctttttca cgagatttcc taagtggtga aggtgacctt 2821 tcccgtcacc ttggcttatt gggattacct gttaaccatg ttcagacacc atttgatgaa 2881 tttgattttg ccgttacaaa tcttgccgta gacttgcaat gtggagtgcg ccttgtgcga 2941 accatggaac ttctcacaca gaactgggac ctctcaaaga aactcaggat tccggcaata 3001 agtcgtcttc aaaagatgca caatgttgac attgttcttc aagttcttaa atcacgagga 3061 attgaattaa gtgatgagca tggaaataca attctatcta aggatattgt ggataggcac 3121 agagaaaaaa ctctcaggtt gctttggaaa atagcgtttg cttttcaggt ggatatttcc 3181 cttaacttag atcaattaaa ggaagaaatt gcctttctaa aacacacaaa gagtataaag 3241 aaaacaatat ctctactatc atgccattct gatgatctta ttaataagaa aaaaggcaaa 3301 agggatagtg gttcctttga acaatatagt gaaaacataa agttattgat ggattgggta 3361 aatgctgttt gtgccttcta taataaaaag gtggagaatt ttacagtgtc tttctcagac 3421 ggccgtgtgt tatgttacct gatccaccat taccatcctt gctatgtgcc atttgacgct 3481 atatgtcagc gtactactca aactgtggaa tgtacgcaaa ctggttcagt ggtattaaat 3541 tcatcatctg aatctgatga cagttctctg gatatgtcac ttaaagcatt tgatcatgaa 3601 aatacttcag agctatacaa agagctccta gaaaatgaaa agaaaaattt tcacttggtt 3661 aggtctgcag ttagagacct tggtggaata cctgctatga ttaatcattc agatatgtca 3721 aatacaattc cagatgaaaa ggtggttatt acctatttgt catttctttg tgcaaggctt 3781 ttggatcttc gtaaagaaat aagagctgct cgactcatac aaacaacatg gagaaaatat 3841 aaactaaaaa cagatctcaa acgccatcag gagagagaga aagctgcaag aattattcaa 3901 ttggctgtaa tcaattttct agcaaaacaa agattgagaa aaagagttaa tgcagcactc 3961 gtcattcaga aatattggcg aagagtctta gcacagagaa aattattaat gttaaaaaag 4021 gaaaagctgg aaaaagttca aaataaagca gcatcactta ttcagggata ttggagaaga 4081 tattccacta gacaaagatt tctgaaattg aaatattatt caatcatcct gcaatctagg 4141 ataagaatga taattgctgt tacatcttat aaacgatatc tttgggctac agttacaatt 4201 cagaggcatt ggcgtgctta tttaagaaga aaacaagatc aacaaagata tgaaatgcta 4261 aaatcatcaa ctcttataat ccaatctatg ttcagaaaat ggaagcaacg taaaatgcaa 4321 tcacaagtaa aagctacagt aatattgcaa agagctttta gagaatggca tttaagaaaa 4381 caagctaaag aagaaaattc tgctattatc atacaatcat ggtatagaat gcataaagaa 4441 ttacggaagt atatttatat tagatcttgt gttgttatca ttcagaaaag atttcggtgc 4501 tttcaagccc aaaagttata taaaagaaga aaagagtcca tactaaccat ccagaagtac 4561 tacaaagcat atctgaaagg aaagattgag cgcaccaact atttgcagaa acgagctgca 4621 gccattcaat tacaagctgc ttttaggaga ctgaaagctc ataatttatg tagacaaatt 4681 agagctgctt gtgttattca gtcatactgg agaatgagac aagacagagt tcgattttta 4741 aaccttaaga agactattat caaatttcag gcacatgtaa gaaaacatca acaacgacag 4801 aaatataaga agatgaagaa agcagctgtt ataattcaga ctcatttccg agcttatatt 4861 tttgccatga aagttctagc atcttaccag aaaacacgct ctgctgtcat tgtgctgcag 4921 tctgcatata gagggatgca agccaggaaa atgtatattc acatcctcac atctgttata 4981 aagattcaat catattatcg tgcttatgtt tctaaaaagg aatttttgag cctaaaaaat 5041 gctacaataa aattgcagtc aactgttaag atgaaacaaa cacgtaaaca atatttgcat 5101 ttaagagcag ctgcactatt tatccagcaa tgttaccgtt ccaaaaaaat agctgcacaa 5161 aagagagaag agtatatgca gatgcgggaa tcttgtatca aactgcaagc atttgttaga 5221 ggataccttg tccgaaagca gatgaggtta caaagaaaag ctgttatttc actacagtct 5281 tatttcagaa tgagaaaggc tcggcagtat tatctgaaaa tgtataaagc aattattgtc 5341 attcagaatt actatcatgc atacaaagca caggtcaatc agaggaagaa cttcttgcaa 5401 gtcaaaaaag cagctacttg cttgcaagca gcttacagag gttataaagt acgccagcta 5461 atcaaacaac aatctatagc tgctcttaaa attcagtctg cttttagagg ctataataaa 5521 agggtaaaat atcaatctgt gcttcaatct ataataaaga ttcagagatg gtacagggcg 5581 tacaagactc ttcatgatac aagaacacat tttttgaaga caaaggcagc tgtgatttcc 5641 ctccagtctg cttatcgtgg ctggaaggtt cggaaacaga ttagaaggga acatcaagct 5701 gccttgaaga ttcagtctgc ttttagaatg gccaaggccc agaaacagtt tagattgttt 5761 aaaacagcag cattagtcat ccagcaaaat ttcagagcat ggactgcagg aaggaagcaa 5821 tgtatggagt atattgaact ccgtcatgcg gtactggtgc ttcaatctat gtggaaggga 5881 aaaacactga gaagacagct tcaaaggcaa cataaatgtg ctatcatcat acagtcatac 5941 tatagaatgc atgtgcaaca aaagaagtgg aaaatcatga aaaaagctgc tcttctgatt 6001 caaaagtatt atagggctta cagtattgga agagaacaga atcatttata tttgaaaaca 6061 aaagcagctg tagtaacttt acagtcagct tatcgtggta tgaaagtgag aaaaagaata 6121 aaggattgca acaaagcagc agtcactata cagtctaaat acagagctta caaaaccaaa 6181 aagaaatatg caacctatag agcttcagct attataattc agagatggta tcgaggtatt 6241 aaaattacaa accatcagca taaggagtat cttaatttga agaagacagc aattaaaatc 6301 caatctgttt atagaggtat tagagttaga agacatattc aacacatgca cagggcagcc 6361 acttttatta aagccatgtt taaaatgcat cagtcaagaa taagttacca tacaatgaga 6421 aaagcagcta ttgttattca agtaagatgt agagcatatt atcaaggtaa aatgcagcgt 6481 gaaaagtacc tgacaatttt gaaagctgtt aaagtccttc aggcaagttt tagaggagta 6541 agagttagac ggactcttag aaagatgcag actgcagcaa cactcattca gtcaaactac 6601 agaagataca gacagcaaac atactttaat aagttaaaga aaataacaaa aacagtacag 6661 caaagatact gggcaatgaa agaaagaaac atacaatttc aaaggtataa caaactgagg 6721 cattctgtaa tatacattca ggctattttt aggggaaaga aagctagaag acatttaaaa 6781 atgatgcata tagccgcaac tctcattcag aggagattta gaactctaat gatgagaaga 6841 agattcctct ctctcaagaa aactgctatt ttgattcaga gaaaatatcg ggcacatctt 6901 tgtacaaagc atcacttaca gttccttcag gtacaaaatg cagttattaa aatccagtca 6961 tcatacagaa gatggatgat aaggaaaagg atgcgagaga tgcacagggc tgctactttc 7021 atccagtcta ctttcagaat gcacagatta catatgagat atcgagcttt gaaacaggcc 7081 tccgttgtga tccaacagca ataccaagca aatagagctg caaaactgca gaggcagcat 7141 tatctcagac aaagacactc tgctgtgatc cttcaggctg cattcagggg tatgaaaact 7201 agaagacatt tgaagagtat gcattcctct gcaaccctta ttcagagtag gtttagatca 7261 ttactggtga ggagaagatt catttccctc aaaaaagcta ctatttttgt tcagaggaaa 7321 tatcgagcca ccatttgtgc caaacataaa ttgtaccaat tcttgcactt aagaaaggca 7381 gccattacaa tacagtcatc ttacagaaga ctgatggtaa agaagaagtt acaagaaatg 7441 caaagggctg cagttctcat tcaggctact ttcaggatgc acagaacata tattacattt 7501 cagacttgga aacatgcttc aattctaatt cagcaacatt atcgaacata tagagctgca 7561 aaattgcaaa gagaaaatta tatcagacaa tggcattctg ctgtggttat tcaggctgca 7621 tataaaggaa tgaaagcaag acaactttta agggaaaaac acaaagcttc tatcgtaata 7681 caaagcacct acagaatgta taggcagtat tgtttctacc aaaagcttca gtgggctaca 7741 aaaatcatac aagaaaaata tagagcaaat aaaaagaaac agaaagtatt tcaacacaat 7801 gaacttaaga aagagacttg tgttcaggca ggttttcagg acatgaacat aaaaaaacag 7861 attcaggaac agcaccaggc tgccattatt attcagaagc attgtaaagc ctttaaaata 7921 aggaagcatt atctccacct tagagcaaca gtagtttcta ttcaaagaag atacagaaaa 7981 ctaactgcag tgcgtaccca agcagttatt tgtatacagt cttattacag aggctttaaa 8041 gtacgaaagg atattcaaaa tatgcaccgg gctgccacac taattcagtc attctatcga 8101 atgcacaggg ccaaagttga ttatgaaaca aagaaaactg caattgtggt tatacagaat 8161 tattataggt tgtatgttag agtaaaaaca gaaagaaaaa actttttagc agttcagaaa 8221 tctgtacgaa ctattcaggc tgcttttaga ggcatgaaag ttagacaaaa attgaaaaat 8281 gtatcagagg aaaagatggc agccattgtt aaccaatctg cactctgctg ttacagaagt 8341 aaaactcagt atgaagctgt tcaaagtgaa ggtgttatga ttcaagagtg gtataaagct 8401 tctggccttg cttgttcaca ggaagcagag tatcattctc aaagtagggc tgcagtaaca 8461 attcaaaaag ctttttgtag aatggtcaca agaaaactgg aaacacagaa atgtgctgcc 8521 ctacggattc agttcttcct tcagatggct gtgtatcgga gaagatttgt tcagcagaaa 8581 agagctgcta tcactttaca gcattatttt aggacgtggc aaaccagaaa acagttttta 8641 ctatatagaa aagcagcagt ggttttacaa aatcactaca gagcatttct gtctgcaaaa 8701 catcaaagac aagtctattt acagatcaga agcagtgtta tcattattca agctagaagt 8761 aaaggattta tacagaaacg gaagtttcag gaaattaaaa atagcaccat aaaaattcag 8821 gctatgtgga ggagatatag agccaagaaa tatttatgta aagtgaaagc tgcctgcaag 8881 attcaagcct ggtatagatg ttggagagca cacaaagaat atctagctat attaaaagct 8941 gttaaaatta ttcaaggttg cttctatacc aaactagaga gaacacggtt tttgaatgtg 9001 agagcatcag caattatcat tcagagaaaa tggagagcta tacttcctgc aaagatagct 9061 catgaacact tcttaatgat aaaaagacat cgagctgctt gtttgatcca agcacattat 9121 agaggatata aaggaaggca ggtctttctt cggcagaaat ctgctgcttt gatcatacaa 9181 aaatatatac gagccaggga ggctggaaag catgaaagga taaaatatat tgaatttaaa 9241 aaatctacag ttatcctaca agcactggtg cgtggttggc tagtacgaaa aagattttta 9301 gaacagagag ccaaaattcg acttcttcac ttcactgcag ctgcatatta tcacctgaat 9361 gctgttagaa ttcaaagagc ctataaactt tacctggctg tgaagaatgc taacaagcag 9421 gttaattcag tcatctgtat tcagagatgg tttcgagcaa gattacaaga aaagagattt 9481 attcagaaat atcatagcat caaaaagatt gagcatgaag gtcaagaatg tctgagccag 9541 cgaaataggg ctgcatcagt aatacagaaa gcagtgcgcc attttctcct ccgtaaaaag 9601 caggaaaaat tcactagtgg aatcattaaa attcaggcat tatggagagg ctattcttgg 9661 aggaagaaaa atgattgtac aaaaattaaa gctatacgac taagtcttca agttgttaat 9721 agggagattc gagaagaaaa caaactctac aaaagaactg cacttgcact tcattacctt 9781 ttgacatata agcacctttc tgccattctt gaggccttaa aacacctaga ggtagttact 9841 agattgtctc cactttgttg tgagaacatg gcccagagtg gagcaatttc taaaatattt 9901 gttttgatcc gaagttgtaa tcgcagtatt ccttgtatgg aagtcatcag atatgctgtg 9961 caagtcttgc ttaatgtatc taagtatgag aaaactactt cagcagttta tgatgtagaa 10021 aattgtatag atatactatt ggagcttttg cagatatacc gagaaaagcc tggtaataaa 10081 gttgcagaca aaggcggaag catttttaca aaaacttgtt gtttgttggc tattttactg 10141 aagacaacaa atagagcctc tgatgtacga agtaggtcca aagttgttga ccgtatttac 10201 agtctctaca aacttacagc tcataaacat aaaatgaata ctgaaagaat actttacaag 10261 caaaagaaga attcttctat aagcattcct tttatcccag aaacacctgt aaggaccaga 10321 atagtttcaa gacttaagcc agattgggtt ttgagaagag ataacatgga agaaatcaca 10381 aatcccctgc aagctattca aatggtgatg gatacgcttg gcattcctta ttag 36: NM_002735   ACBD3 1 atacgtggct gccgtctgtc cccgctgagg aggtgcagca gccggagatg gcggcggtgc 61 tgaacgcaga gcgactcgag gtgtccgtcg acggcctcac gctcagcccg gacccggagg 121 agcggcctgg ggcggagggc gccccgctgc tgccgccacc gctgccaccg ccctcgccac 181 ctggatccgg tcgcggcccg ggcgcctcag gggagcagcc cgagcccggg gaggcggcgg 241 ctgggggcgc ggcggaggag gcgcggcggc tggagcagcg ctggggtttc ggcctggagg 301 agttgtacgg cctggcactg cgcttcttca aagaaaaaga tggcaaagca tttcatccaa 361 cttatgaaga aaaattgaag cttgtggcac tgcataagca agttcttatg ggcccatata 421 atccagacac ttgtcctgag gttggattct ttgatgtgtt ggggaatgac aggaggagag 481 aatgggcagc cctgggaaac atgtctaaag aggatgccat ggtggagttt gtcaagctct 541 taaataggtg ttgccatctc ttttcaacat atgttgcgtc ccacaaaata gagaaggaag 601 agcaagaaaa aaaaaggaag gaggaagagg agcgaaggcg gcgtgaagag gaagaaagag 661 aacgtctgca aaaggaggaa gagaaacgta ggagagaaga agaggaaagg cttcgacggg 721 aggaagagga aaggagacgg atagaagaag aaaggcttcg gttggagcag caaaagcagc 781 agataatggc agctttaaac tcccagactg ccgtgcagtt ccagcagtat gcagcccaac 841 agtatccagg gaactacgaa cagcagcaaa ttctcatccg ccagttgcag gagcaacact 901 atcagcagta catgcagcag ttgtatcaag tccagcttgc acagcaacag gcagcattac 961 agaaacaaca ggaagtagta gtggctgggt cttccttgcc tacatcatca aaagtgaatg 1021 caactgtacc aagtaatatg atgtcagtta atggacaggc caaaacacac actgacagct 1081 ccgaaaaaga actggaacca gaagctgcag aagaagccct ggagaatgga ccaaaagaat 1141 ctcttccagt aatagcagct ccatccatgt ggacacgacc tcagatcaaa gacttcaaag 1201 agaagattca gcaggatgca gattccgtga ttacagtggg ccgaggagaa gtggtcactg 1261 ttcgagtacc cacccatgaa gaaggatcat atctcttttg ggaatttgcc acagacaatt 1321 atgacattgg gtttggggtg tattttgaat ggacagactc tccaaacact gctgtcagcg 1381 tgcatgtcag tgagtccagc gatgacgacg aggaggaaga agaaaacatc ggttgtgaag 1441 agaaagccaa aaagaatgcc aacaagcctt tgctggatga gattgtgcct gtgtaccgac 1501 gggactgtca tgaggaggtg tatgctggca gccatcaata tccagggaga ggagtctatc 1561 tcctcaagtt tgacaactcc tactctttgt ggcggtcaaa atcagtctac tacagagtct 1621 attatactag ataaaaatgt tgttacaaag tctggagtct agggttgggc agaagatgac 1681 atttaatttg gaaatttctt tttacttttg tggagcatta gagtcacagt ttaccttatt 1741 gatattggtc tgatggtttg tgaactcttg ctgggaatca aaatttcctt gagactcttt 1801 agcattcata ctttggggtt aaaggagatt cctcagactc atccagccct tgggtgctga 1861 ccagcagagt cactagtgga tgctgaagtt acatgagcta catgttaaat atttaaagtc 1921 tccaaaataa aacaccccaa cgttgacctt acccggctga tggttagccc cttgctgcct 1981 gctccatgtg tcttatgaga gcccgtagtt acagtgtcct ctaatttgaa atccataagt 2041 taacaagtct atatcaggtg cagctggctt tgattaaagg ccatttttaa aacttaaaaa 2101 ctcaacacct cacagattat aatagaaaaa gaaatggcct cagtttgatc tcgttcagaa 2161 tgacccagat tgtttctgct ttgggtgcag ctgtttagtt cagagttata ttacagagaa 2221 ttattttctg agataatctt aaactagaat gttcaaaact aattgataat tgaagtatca 2281 agatacgtag aacacctcag agatttttct tcaggaactt ccacaaactt tgaatccttg 2341 tatctttatt tggtattcat actactagta gcaaaataca ggttttttgt tttgttttgt 2401 tttgttttgg cttcatagag tatctcaaat tgaaactttt ctgcacaaag aataaaatta 2461 aggattttat aaactcaaat tggcacctac tgaattaaaa tacataaaat catttaaata 2521 taattcagca tatgggaagt aacattgcac taatatggaa atcactgcca gagacagtct 2581 attttctttt aatttgttac tacttagtca caaaccccac attattccag tttggaatta 2641 cttattaagg agaattggaa atacatatgc ccatgcttaa attttatagc tttaatttgt 2701 gttatttctt tattgacggg aagaggtaca tctttttttc cttactgaaa acaaatatgg 2761 attaattgcc tcaaatttgt ataagtgatt ggctagtgat tcttgttttc agaagggaga 2821 gtggtataga tagaaaatga caaagatggc aatatacact taatgttgtt attgtatgtt 2881 gttactgaag tacttagatt tttaaaattt caaatcctaa atcacttctt gtaggagggt 2941 tttcattaac tgcagtatat acagttcact acatatgggt tgtttgagtt ttttgtgtgc 3001 tgtatttctt tctgtttttt aatacctggt tttgtacata tctaactctg ttctcttttg 3061 gttgttcaga aactggattt tttttttctt aagcagtgct taatttgtgt tttttaattt 3121 tgattcagaa gtagtcccag ctcataggtg ttcatactgt tacatccaga acatttgtca 3181 ggctctctgt cagctttcat gtacatatgg tatagaaacc atggagttag gcacttcctg 3241 gatttttttt ttatgagaaa aatactgtat ttaaaatgta aaataaactt ttaaaaagca 3301 ggcactaata tatatttctt ccagcctttg attacaaatt tgtccttgca catgttaaga 3361 tgaattatct cctaaaaata tcattgttct tgggagcagt gtatgttact ttacatagca 3421 gcggttcctg tcatgtgttc atgtcagaat atttttggtt ttaaactttc ttattgcctt 3481 tggctgttga ttagtacagt acaagtgcga tttcaaaaag atcttgaaag taatatattt 3541 aatcaattaa aatgtttatc tgtaaaaaaa aaaaaaaaaa a 37: AA160544   ZNF325 1 tttttttaca gttttcaaat attttactga aaatgcatat tgtacaatta atgtataatg 61 acacaccagt gtgagaaacc tccataggta tcatttccac aaatatgcta tgaatataga 121 gttcctacac aaaactatac aacttaccag atgtaattcc tgttacgtac catactcaca 181 atcgtcttga agaatatgga gaaaaagtgc tgagtgacaa aaacaggagc catgtgtgat 241 tttaataaat ggaaaacacg gcatttcagc tcagtggtaa agcagtaaac caatcagatg 301 cttagctatc aagtaatcat gtgagaggaa acagaattag atcctacctc atactatatg 361 ttgtcagcta acactgtagc agtggtatat gaatcactaa attacctcca acaaaatgta 421 ttcctgtatt gaaaaaagga ggtatggcca acattgtgtc acgttccaag gtgaattttg 481 cggtcacgat atgacgttca ggaagctact tttattgttc agttgatttc tatgctcaac 541 tattaggtca attccgaaat aatcncatat cacagctaaa ataatgncta ccaagtcnct 601 ctgactgct 38: AK057653   LOC285513 1 ctgttagcaa tgcttcctga tgttgtgcgt ggcccttttt ggttgattct ctccaaattc 61 gggtcagctg ctgccacctg gcaaataaca gaggatatgc tgaatctcct gtccatcctt 121 gtaacgatat ccttcttaat gaaattcttc aactggctga gcaattacaa atgtcatctg 181 tccagacaca tgggcttaag gatgtctaca aaattttaga catttttgca aatgggaaaa 241 aaaatagtct tgtaaatact gaaacagatt tccatgaact ttatcctact cttggaaaga 301 aaacaattct ccttggctgc agaaatcaaa taagctgggt ttgcaatgac caaggacata 361 aatgaagatg gattgaagtg gaaaaattct gtctcccaag tgatcagtga catctgccag 421 aggtcattac agctactttt aactgtgaac agtcaccagc taaactactc acttgccaca 481 acaaaataac ctctctcaaa gtaaatccag tgcatctgta tatatgtgta gatagcagca 541 acaaacaatc ctgaaacatt atttttggct gttaggtaag taaacgtgat gataattata 601 aacaacattc aaataacctt ggaccttggt gaaatgactt gtggtggcca gaatggtgca 661 acaagatgtt atttgcaagt ttttttaaga cacaaatatc tcagatacta ataatgagaa 721 taaagactgt tgaatatgaa attaaagcca agcaataatg tgccaaaaag aggcagttat 781 accagcaaat gcatctatta tgggcacacc attatataat gatggtttgc tttatgaaga 841 ctgactgtaa cccacaggat aaaataagca aaggcatagt ttctgctttc ttcctggaaa 901 aacttgttta gaagcttcat aaagaggtac agcactaatg agcattagtc aggatacagt 961 tggcatctat gtttttatgt gagcccagag ggaagaggag ccactcaaag tcttgctggt 1021 ttaaaactca agacagctgc aaccagaagt tttgttgaaa tggagacttt aaacttatgg 1081 taattactct ttctggacac tagcatgtag aaagcaattc agttaactct gcccagagga 1141 ttaccagctt tagctgtgaa aaaatgggct cccggatgta aaatcactaa aacatgagat 1201 cttgtatcca aagaggcttc aaatgatgcc ttacagaaaa cgatgctcca gatgggcact 1261 tctaaatgct aactcttcat caagtatctt tctggattca agctcaaaat taattggctg 1321 caaaatagta ggaataaaaa tcacatattt tacactttag aaaaggatat tgatgatcaa 1381 cctgcatggt gataattatg atgagatacc ccagtgattt aatgatgtta gaaagaatta 1441 aatgggagag aattgctaac agctttcttg atctcttaac tatggagatg tcattcattt 1501 atttctgggg tgaaaattat agcttgcttt ttgacattgc tgctagtatt gttctttgtt 1561 gctttaaaaa ttgtctctct ttagaaaaac tcttgagcag ttaaacagtt ctttttctga 1621 ttcatatcat tgcttttaat aacatgtaaa ggctgtgtgt agagcaaact atataaaatg 1681 agtagaaagg gcttgctcat gttaattggc atccttgatg attttagttg agattcctta 1741 acatttattt tagatcacat ctttacgtaa cttatttttc ctaatgtttt ccatcgtgtc 1801 ttaaaatgat gctggtatat caggagattg cagtattata gtcatactcc ccaatcccta 1861 gaggagagga aagactaatt cttgttttaa gggcccctgg agataccttt tattaaggtt 1921 gaaaaaggtc aacacagcct gaaaataaga aaaatatata ctagcaatta ctaattttct 1981 aaatgtgtgt atctctgctg tactaatgtg tgaacaatat gtcgtgcata atactgtagc 2041 tggtcgtggt atgtcaatac attctgtgag tgtgtacagt ctgagtgatc agttttctat 2101 ttttatgtgt aaaaaaaata acttgtcgta tcccatttaa aggccaattt ctgtattcag 2161 gcaggcatat gtacatacat gaataaagcc aacaaaagtg tgcacatgta ttcagt 39: NM_003310   TSSC1 1 aattcggcac gagaagactt ccagtttgga gtcgtttgct gcggggaggg aatgaatggg 61 cgctgggaac acgcccgcga ggtggggacg cgccggccgt agcgaggtcc ttagcgtgtg 121 agtggccggg gtcgggtcgc ttccccgcag catggaggac gatgcaccag tgatctacgg 181 gctggagttc caggcacgtg ccttaacacc tcaaactgca gaaacagatg ccattcggtt 241 tttggttggg acgcagtctc ttaaatatga taatcagatc catatcatag attttgacga 301 tgaaaacaac attataaata aaaatgtcct cctccatcaa gcgggtgaaa tctggcatat 361 tagcgctagc cctgcagaca gaggtgtgct gacgacctgc tacaacagaa cttcagacag 421 caaagtcctg acatgtgcag ccgtgtggag gatgccgaag gaattggaat caggcagcca 481 cgagtcccct gatgattcat ccagcactgc acagaccctg gagctgctct gtcaccttga 541 caacacagcc catggcaaca tggcctgtgt cgtgtgggag ccaatgggag atgggaagaa 601 aatcatttcc ttggctgata accatatcct gctgtgggat ttacaggaaa gctcgagcca 661 ggctgtgctg gccagctcag cgtccctgga agggaaggga caactgaagt tcacctcagg 721 acggtggagc ccacatcata actgcaccca ggtggccaca gcgaacgaca ccaccctccg 781 tggctgggac acccggagca tgagccagat ctactgcata gagaatgccc acggacagct 841 ggtgcgggac cttgacttta atcccaataa gcagtactac ttggccagct gcggagacga 901 ctgtaaggtg aagttctggg acacccgaaa tgtcaccgaa cccgtgaaga ccctggagga 961 gcactcccac tgggtgtgga acgtccgcta caaccactct catgaccagc tggtcctcac 1021 gggcagcagt gacagcagag tcatcctttc caacatggtg tccatctcgt cggagccctt 1081 cggccacttg gtagacgacg atgacatcag tgaccaggag gaccaccgtt ctgaagagaa 1141 gagcaaggag cccctgcagg acaacgtgat cgccacctac gaggagcacg aggacagcgt 1201 ctatgccgtg gactggtcct cggctgaccc gtggctgttt gcctccctga gctatgacgg 1261 gaggctcgtg atcaacaggg tgcccagggc cctgaagtac cacatcctgc tatgactccc 1321 gggcctgggt tatccaggtc ccattgagtg gttttcctct tggcagattc tcaaacagtc 1381 gcagctcttt ggaggtgact cgtgttccag gtggatccct ctctgggaga gccgctgttc 1441 ccttcctgta gcagcagcat ttatgaatgg ggtgaatggg gctattgtcg acggcacagc 1501 taatgcccga acccagcccc tgtcggcaga gacagagccc cacattatta tgtgaataac 1561 aatgttttct gttttaaggg tgtcaggagt ttcgcttttt aaaaaaatgt ctgttcctgc 1621 agtagtaact cttctttctc ttgagagtaa aaaatgaaat aaaataaatc cacgctgaca 1681 aaaaaaaaaa aaaaaaaaaa aaaaa 40: BC007451   XAB1 1 gaggaagatg gcggcgtccg cagctgccgc tgagctccag gcttctgggg gtccgcggca 61 cccagtgtgt ctgttggtgt tgggaatggc gggatccggg aaaaccactt ttgtacagag 121 gctcacagga cacctgcatg cccaaggcac tccaccgtat gtgatcaacc tggatccagc 181 agtacatgaa gttccctttc ctgccaatat tgatattcgt gatactgtaa agtataaaga 241 agtaatgaaa caatatggac ttggacccaa tggcggcata gtgacctcac tcaatctctt 301 tgctaccaga tttgatcagg tgatgaaatt tattgagaag gcccagaaca tgtccaaata 361 tgtgttgatt gacacacctg gacagattga ggtattcacc tggtcagctt ctgggacaat 421 tatcactgaa gcccttgcat cctcatttcc aacagttgtc atctatgtaa tggacacatc 481 gagaagtacc aacccagtga ccttcatgtc caacatgctc tatgcctgca gcatcttata 541 caaaaccaag ctgcctttca ttgtggtcat gaataaaact gacatcattg accacagctt 601 tgcagtggaa tggatgcagg attttgaggc tttccaagat gccttgaatc aagagactac 661 atacgtcagt aacctgactc gttcaatgag cctggtgtta gatgagtttt acagctcact 721 cagggtggtg ggtgtctctg ctgttctggg tactggatta gatgaactct ttgtgcaagt 781 taccagtgct gccgaagaat atgaaaggga gtatcgtcct gaatatgaac gtctgaaaaa 841 atcactggcc aacgcagaga gccaacagca gagagaacaa ctggaacgcc ttcgaaaaga 901 tatgggttct gtagccttgg atgcagggac tgccaaagac agcttatctc ctgtgctgca 961 cccttctgat ttgatcctga ctcgaggaac cttggatgaa gaggatgagg aagcagacag 1021 cgatactgat gacattgacc acagagttac agaggaaagc catgaagagc cagcattcca 1081 gaattttatg caagaatcga tggcacaata ctggaagaga aacaataaat aggagacttt 1141 agcacacttc acttgtttct agaagtccag aattttggac ctccacgtga aagaactgtt 1201 cttacctctg aactgggggc tcccataagg gataattttc ctcagagtag caaagtttct 1261 cttattagag aaatcttgtg actcagatga agtcagggat agaagaccct tggacctggc 1321 aggttaatgc tgattattcc ttggcctttc ccttgtattt atgcaaggaa ggatatactg 1381 agctgatact gttccaagcc tacaacttca agttttatca tttgaactca agtacttttg 1441 ctgctgagga atggaatcaa aagaacgtag tctcctggtg accacctcag atctctatta 1501 ttaggctaga tgtatagcct ctactccccc agcttcttgc tcttgaccct gcactgtaag 1561 ttgcccttct attagcagcc aaggaaaagg gaaacatgag cttatccaga acggtggcag 1621 agtctccttg gcaatcaacc aacgttgcta tgaaatatgc ctcacactgt atagctcatt 1681 ataggacgtc aggtttgttg aaaaaagtgg gcaagacatg attaatgaat cagaatcctg 1741 tttcattggt gacttggata aagacttttt aattttaaaa aaaaaaaaaa aaaaaaaaaa 41: BC035467   HNLF 1 ggctgaggcg cgatggcagg tgtcggggct gggcctctgc gggcgatggg gcggcaggcc 61 ctgctgcttc tcgcgctgtg cgccacaggc gcccaggggc tctacttcca catcggcgag 121 accgagaagc gctgtttcat cgaggaaatc cccgacgaga ccatggtcat cggcaactat 181 cgtacccaga tgtgggataa gcagaaggag gtcttcctgc cctcgacccc tggcctgggc 241 atgcacgtgg aagtgaagga ccccgacggc aaggtggtgc tgtcccggca gtacggctcg 301 gagggccgct tcacgttcac ctcccacacg cccggtgacc atcaaatctg tctgcactcc 361 aattctacca ggatggctct cttcgctggt ggcaaactgc gtgtgcatct cgacatccag 421 gttggggagc atgccaacaa ctaccctgag attgctgcaa aagataagct gacggagcta 481 cagctccgcg cccgccagtt gcttgatcag gtggaacaga ttcagaagga gcaggattac 541 caaaggtatc gtgaagagcg cttccgactg acgagcgaga gcaccaacca gagggtccta 601 tggtggtcca ttgctcagac tgtcatcctc atcctcactg gcatctggca gatgcgtcac 661 ctcaagagct tctttgaggc caagaagctg gtgtagtgcc ctctttgtat gacccttcct 721 ttttacctca tttatttggt actttcccca cacagtcctt tatccacctg gatttttagg 781 gaaaaaaatg aaaaagaata agtcacattg gttccatggc cacaaaccat tcagatcagc 841 cacttgctga ccctggttct taaggacaca tgacattagt ccaatctttc aaaatcttgt 901 cttagggctt gtgaggaatc agaactaacc caggactcag tcctgcttct tttgcctcga 961 gtgattttcc tctgtttttc actaaataag caaatgaaaa ctctctccat taccttctgc 1021 tttctctttg tccacttacg cagtaggtga ctggcatgtg ccacagagca ggccctgcct 1081 cactgtctgc tggtcagttc tgggttcact taatggcttt gtgaatgtaa ataaggggca 1141 ggtcttggcc ctagaggatt gagatgtttt tctatatctt agaactattt ttggataaat 1201 tatatatttt ccttcctagt agaagtgtta ctgcctgtaa ctagctcaaa ataccaatgc 1261 agtttctgca ttctgggttt tgtttttcct tttttttttt tttttttttt ttttgagttt 1321 tgctctcgtc gcccaggctg gagtgcaatg gcgtgatctc agctcactgg caacatctgc 1381 ctcccgggtt caaatgattc tcctgcctca gtctcctgag tagctgggat tacaggtgcc 1441 cgccaccacg ctcagctaat ttttgtattt ttagtagaga tggggtttta ccatgttggc 1501 caggctggtc ttagactcct gacctcagtt gatccacctg cctcagcctc tgcattcagt 1561 ttattcacat atttttggta actcccatgg cagctcctag gatttcagcg gtctgtgggc 1621 cagaaagcag gcaccagggc tgacctcaag gccgtatcag agggccaagc agagttcttt 1681 tggatacctg cttttcatcc cacagggcct tagagtcaga ggtaaggtag caacagagct 1741 agaatggggc aatgcactct taccctcctt ctcaactttt atttaagctg tgctaaatgt 1801 tttcttcaag ggaaccagat ttagttcttt acagaatttt ccagtgaaat aaaacatgtt 1861 gtaatagctg tgtttgagat gaaataagag gttgtgggta gaggggaggc acctaaagga 1921 aaagaggaaa ggtgcctggg ctacctatgc agataacctg gagtggactt cactgtggac 1981 tcgtggtact aaggcttggc ctggacaggc agtctagggg gtatgggaat acacggtgtg 2041 gttgttcaac tatttgcaaa ggtcaaccaa atagaccaca tgttcgcaaa gtatcatctg 2101 aggaaattaa gtaccttctt agccctctca gtcataaatt tgaacaaatt ttaatacact 2161 tccctcatgc ccttctatat aaaacttaat accattagtt ccccattctt gacattttat 2221 ttcagttttt attatatatt tatttgaaat atttattaaa ttatctgacc tacagaacta 2281 aaaaaaaaaa aaaaaaa 42: CK004097   EIF4EBP 1 gggacatttc caagggtatt taaactctca ctctgccacc tttctaaggg tgggaggctg 61 gcagagatgc tgcaatgctt gataatcatt tggccacact gaaatttcca aagggagctc 121 ttgccggtgc ttaaaaccaa aactcctgga cacttagaaa attccatgaa tctagcacaa 181 aatatccatt cttgcccaag tgtatcccct ttctctccag cttaatcttt tttttttttt 241 ttttttaaag cccaggccaa gggtactttt aactggaaac tggggaggag ggaagaacac 301 tagcagggag ctaagaggca ggttgctggg taagccatcc tgctcctacc tggtgcctgt 361 atctacattg ctgagtgctg tgcgccagtg cctttccttc atctgcagat ggagcccatc 421 tctttccacc tgggtgagga gaccctctgc tactccaggg gtaaacctta aagaaggtgt 481 cttgaagagc ccaaaggaca ctcacgtgct aaggtgtcca ttttatgcat ctttaaaata 541 ttttatttaa aaaaaaaaat agccctgccc tgtcttagtg ccactaacgg cccagattca 601 ttcattctga atggaaaaac ngagactgcc agcactttcc tttggtcctt ccn 43: NM_144683   MGC32380 1 catggaggcg ctgctgctgg gcgcggggtt gctgctgggc gcttacgtgc ttgtctacta 61 caacctggtg aaggccccgc cgtgcggcgg catgggcaac ctgcggggcc gcacggccgt 121 ggtcacgggt gagtgcggag gcgggtgagt gcgagctggc ggggcgcgcg gagaggaggc 181 cgggccggcg gtagcagcgg cccgccgggc tcagctcagc tcggctcccg cccgcggtcc 241 gcaggcgcca acagcggcat cggaaagatg acggcgctgg agctggcgcg ccggggagcg 301 cgcgtggtgc tggcctgccg cagccaggag cgcggggagg cggctgcctt cgacctccgc 361 caggagagtg ggaacaatga ggtcatcttc atggccttgg acttggccag tctggcctcg 421 gtgcgggcct ttgccactgc ctttctgagc tctgagccac ggttggacat cctcatccac 481 aatgccggta tcagttcctg tggccggacc cgtgaggcgt ttaacctgct gcttcgggtg 541 aaccatatcg gtccctttct gctgacacat ctgctgctgc cttgcctgaa ggcatgtgcc 601 cctagccgcg tggtggtggt agcctcagct gcccactgtc ggggacgtct tgacttcaaa 661 cgcctggacc gcccagtggt gggctggcgg caggagctgc gggcatatgc tgacactaag 721 ctggctaatg tactgtttgc ccgggagctc gccaaccagc ttgaggccac tggcgtcacc 781 tgctatgcag cccacccagg gcctgtgaac tcggagctgt tcctgcgcca tgttcctgga 841 tggctgcgcc cacttttgcg cccattggct tggctggtgc tccgggcacc aagagggggt 901 gcccagacac ccctgtattg tgctctacaa gagggcatcg agcccctcag tgggagatat 961 tttgccaact gccatgtgga agaggtgcct ccagctgccc gagacgaccg ggcagcccat 1021 cggctatggg aggccagcaa gaggctggca gggcttgggc ctggggagga tgctgaaccc 1081 gatgaagacc cccagtctga ggactcagag gccccatctt ctctaagcac cccccaccct 1141 gaggagccca cagtttctca accttacccc agccctcaga gctcaccaga tttgtctaag 1201 atgacgcacc gaattcaggc taaagttgag cctgagatcc agctctccta accctcaggc 1261 caggatgctt gccatggcac ttcatggtcc ttgaaaacct cggatgtgtg cgaggccatg 1321 ccctggacac tgacgggttt gtgatcttga cctccgtggt tactttctgg ggccccaagc 1381 tgtgccctgg acatctcttt tcctggttga aggaataatg ggtgattatt tcttcctgag 1441 agtgacagta accccagatg gagagatagg ggtatgctag acactgtgct tctcggaaat 1501 ttggatgtag tattttcagg ccccaccctt attgattctg atcagctctg gagcagaggc 1561 agggagtttg caatgtgatg cactgccaac attgagaatt agtgaactga tccctttgca 1621 accgtctagc taggtagtta aattaccccc atgttaatga agcggaatta ggctcccgag 1681 ctaagggact cgcctagggt ctcacagtga gtaggaggag ggcctgggat ctgaacccaa 1741 gggtctgagg ccagggccga ctgccgtaag atgggtgctg agaagtgagt cagggcaggg 1801 cagctggtat cgaggtgccc catgggagta aggggacgcc ttccgggcgg atgcagggct 1861 ggggtcatct gtatctgaag cccctcggaa taaagcgcgt tgaccgccaa aaaaaaaaaa 1921 aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaa 44: NM_004600   SSA2 1 tcctgcttgt cggcatcgct ccccacaggc cgacgtcgag agggcctgct ttactcctcc 61 tctttctcct ccttctcccg cggcttctgc gcggagaggc gtcgcccggg atctgggttt 121 tggaagaagg atctttgtgg gaagacaggg tgaatttatc acagaggaat aacgagggag 181 aggagaaagg tttcctaaag acaaaaaaaa aaatggagga atctgtaaac caaatgcagc 241 cactgaatga gaagcagata gccaattctc aggatggata tgtatggcaa gtcactgaca 301 tgaatcgact acaccggttc ttatgtttcg gttctgaagg tgggacttat tatatcaaag 361 aacagaagtt gggccttgaa aatgctgaag ctttaattag attgattgaa gatggcagag 421 gatgtgaagt gatacaagaa ataaagtcat ttagtcaaga aggcagaacc acaaagcaag 481 agcctatgct ctttgcactt gccatttgtt cccagtgctc cgacataagc acaaaacaag 541 cagcatttaa agctgtttct gaagtttgtc gcattcctac ccatctcttt acttttatcc 601 agtttaagaa agatctgaag gaaagcatga aatgtggcat gtggggtcgt gccctccgga 661 aggctatagc ggactggtac aatgagaaag gtggcatggc ccttgctctg gcagttacaa 721 aatataaaca gagaaatggc tggtctcaca aagatctatt aagattgtca catcttaaac 781 cttccagtga aggacttgca attgtgacca aatatattac aaagggctgg aaagaagttc 841 atgaattgta taaagaaaaa gcactctctg tggagactga aaaattatta aagtatctgg 901 aggctgtaga gaaagtgaag cgcacaagag atgagctaga agtcattcat ctaatagaag 961 aacatagatt agttagagaa catcttttaa caaatcactt aaagtctaaa gaggtatgga 1021 aggctttgtt acaagaaatg ccgcttactg cattactaag gaatctagga aagatgactg 1081 ctaattcagt acttgaacca ggaaattcag aagtatcttt agtatgtgaa aaactgtgta 1141 atgaaaaact attaaaaaag gctcgtatac atccatttca tattttgatc gcattagaaa 1201 cttacaagac aggtcatggt ctcagaggga aactgaagtg gcgccctgat gaagaaattt 1261 tgaaagcatt ggatgctgct ttttataaaa catttaagac agttgaacca actggaaaac 1321 gtttcttact agctgttgat gtcagtgctt ctatgaacca aagagttttg ggtagtatac 1381 tcaacgctag tacagttgct gcagcaatgt gcatggttgt cacacgaaca gaaaaagatt 1441 cttatgtagt tgctttttcc gatgaaatgg taccatgtcc agtgactaca gatatgacct 1501 tacaacaggt tttaatggct atgagtcaga tcccagcagg tggaactgat tgctctcttc 1561 caatgatctg ggctcagaag acaaacacac ctgctgatgt cttcattgta ttcactgata 1621 atgagacctt tgctggaggt gtccatcctg ctattgctct gagggagtat cgaaagaaaa 1681 tggatattcc agctaaattg attgtttgtg gaatgacatc aaatggtttc accattgcag 1741 acccagatga tagaggcatg ttggatatgt gcggctttga tactggagct ctggatgtaa 1801 ttcgaaattt cacattagat atgatttaac cataagcagc agcacgatcc agagatccat 1861 tgccatcagt gatctcacta aaaatataca gctacttccc agctaatctc cacccaatga 1921 atgatgatgg tatagtatgt gcataatgga aagttacctt actgaaaaaa aaaaaagaag 1981 gaaaaataag atgggcccaa aggtctatct actaaactag ctcttgggga aatagcttca 2041 ggatactgta gtttcctcta tctaatagag aactttttgt taacagacac tgtaaaatag 2101 ttttgctttg ttgaataata catgtgtacc taaaagaggt aagagcaaaa agtgtaattc 2161 cacatcatgt tacttgagaa gtgcttaacg ttttcttaaa tgttttcatt gggaaaggac 2221 agctttgata atgtccaaat actctgaaat gcactagacc atataactgt gatgaaatat 2281 gaaactcatc tgtaaacttt tataccaagg gggtaaaaaa aaaaactaag gcatttgatt 2341 aaattatgaa tgagttttac aaattccttt cagagtttta ctaagatcac acaaataaca 2401 gctttcttat tcagtgaaaa agatatttta tttctgatgt tttatttgca ctcgtggaat 2461 atgttaccat taatcagaaa catcatggca acccctaaga atagactaag tttgtgttgg 2521 ctgagggatt ctatttggtt tgcttttttt tttttgcttt gttatatttt attgctacaa 2581 ggggtgtgac ttgataatga tttcctctga attataataa catagccaga tgtagtctca 2641 cactgttttt catactctta agtgtaaata atataaaatg tttcaagcgc ttaactcccc 2701 ctcattcaca aagtataaca attaaaatct caactataac cagtttagct ttttccttac 2761 ttttaaaata aaatttttta cttttaacta tttttttagt taatattttt aaaagtatac 2821 atgtcaatgg cctctttgtc cattattcat tttgtggcaa aatattcttc tttgatagtg 2881 taaacaaata ataaagcaat ctaggtcctt taggtttgaa aggcaatttt tgagtagcat 2941 attaccagct agccagtcac taggaatttt tttcagtatt atttgtatgt attaaacttt 3001 tcattacact aaagtgcatt attttattga gcaagtatcc ttcattgtga ggtttgacat 3061 taaagcaatc tgttgaaatg ccaaaaaaaa aaaaaaaa 45: NM_002730   PRKACA 1 gatcttgggc tgaggttccc gggcgggcgg gcgcggagag acgcgggaag caggggctgg 61 gcgggggtcg cggcgccgca gctagcgcag ccagcccgag ggccgccgcc gccgccgccc 121 agcgcgctcc ggggccgccg gccgcagcca gcacccgccg cgccgcagct ccgggaccgg 181 ccccggccgc cgccgccgcg atgggcaacg ccgccgccgc caagaagggc agcgagcagg 241 agagcgtgaa agaattctta gccaaagcca aagaagattt tcttaaaaaa tgggaaagtc 301 ccgctcagaa cacagcccac ttggatcagt ttgaacgaat caagaccctc ggcacgggct 361 ccttcgggcg ggtgatgctg gtgaaacaca aggagaccgg gaaccactat gccatgaaga 421 tcctcgacaa acagaaggtg gtgaaactga aacagatcga acacaccctg aatgaaaagc 481 gcatcctgca agctgtcaac tttccgttcc tcgtcaaact cgagttctcc ttcaaggaca 541 actcaaactt atacatggtc atggagtacg tgcccggcgg ggagatgttc tcacacctac 601 ggcggatcgg aaggttcagt gagccccatg cccgtttcta cgcggcccag atcgtcctga 661 cctttgagta tctgcactcg ctggatctca tctacaggga cctgaagccg gagaatctgc 721 tcattgacca gcagggctac attcaggtga cagacttcgg tttcgccaag cgcgtgaagg 781 gccgcacttg gaccttgtgc ggcacccctg agtacctggc ccctgagatt atcctgagca 841 aaggctacaa caaggccgtg gactggtggg ccctgggggt tcttatctat gaaatggccg 901 ctggctaccc gcccttcttc gcagaccagc ccatccagat ctatgagaag atcgtctctg 961 ggaaggtgcg cttcccttcc cacttcagct ctgacttgaa ggacctgctg cggaacctcc 1021 tgcaggtaga tctcaccaag cgctttggga acctcaagaa tggggtcaac gatatcaaga 1081 accacaagtg gtttgccaca actgactgga ttgccatcta ccagaggaag gtggaagctc 1141 ccttcatacc aaagtttaaa ggccctgggg atacgagtaa ctttgacgac tatgaggaag 1201 aagaaatccg ggtctccatc aatgagaagt gtggcaagga gttttctgag ttttaggggc 1261 atgcctgtgc ccccatgggt tttctttttt cttttttctt ttttttggtc gggggggtgg 1321 gagggttgga ttgaacagcc agagggcccc agagttcctt gcatctaatt tcacccccac 1381 cccaccctcc agggttaggg ggagcaggaa gcccagataa tcagagggac agaaacacca 1441 gctgctcccc ctcatcccct tcaccctcct gccccctctc ccacttttcc cttcctcttt 1501 ccccacagcc ccccagcccc tcagccctcc cagcccactt ctgcctgttt taaacgagtt 1561 tctcaactcc agtcagacca ggtcttgctg gtgtatccag ggacagggta tggaaagagg 1621 ggctcacgct taactccagc ccccacccac acccccatcc cacccaacca caggccccac 1681 ttgctaaggg caaatgaacg aagcgccaac cttcctttcg gagtaatcct gcctgggaag 1741 gagagatttt tagtgacatg ttcagtgggt tgcttgctag aattttttta aaaaaacaac 1801 aatttaaaat cttatttaag ttccaccagt gcctccctcc ctccttcctc tactcccacc 1861 cctcccatgt ccccccattc ctcaaatcca ttttaaagag aagcagactg actttggaaa 1921 gggaggcgct ggggtttgaa cctccccgct gctaatctcc cctgggcccc tccccgggga 1981 atcctctctg ccaatcctgc gagggtctag gcccctttag gaagcctccg ctctcttttt 2041 ccccaacaga cctgtcttca cccttgggct ttgaaagcca gacaaagcag ctgcccctct 2101 ccctgccaaa gaggagtcat cccccaaaaa gacagagggg gagccccaag cccaagtctt 2161 tcctcccagc agcgtttccc cccaactcct taattttatt ctccgctaga ttttaacgtc 2221 cagccttccc tcagctgagt ggggagggca tccctgcaaa agggaacaga agaggccaag 2281 tccccccaag ccacggcccg gggttcaagg ctagagctgc tggggagggg ctgcctgttt 2341 tactcaccca ccagcttccg cctcccccat cctgggcgcc cctcctccag cttagctgtc 2401 agctgtccat cacctctccc ccactttctc atttgtgctt ttttctctcg taatagaaaa 2461 gtggggagcc gctggggagc caccccattc atccccgtat ttccccctct cataacttct 2521 ccccatccca ggaggagttc tcaggcctgg ggtggggccc cgggtgggtg cgggggcgat 2581 tcaacctgtg tgctgcgaag gacgagactt cctcttgaac agtgtgctgt tgtaaacata 2641 tttgaaaact attaccaata aagttttgtt taaaaaaaaa aaaaaaaaa 46: NM_005102   FEZ2 1 ccggagcctc ctggaccagg agaactgtaa cgcgagcccc gagccatggg cgaaaggcgg 61 ggccgagacg ggttgggggc gccgacggtt tcccggccct ggctgcagct tggaggagaa 121 gctgagcctg tgcttccgcc cctcggatcc gggcgccgag cccgaggacg gccgtgcggc 181 catcacggag ctcaactcct gcagggggac gagatttgga atgccctgac agataattat 241 gggaatgtga tgcctgtaga ctggaagtca tcgcatacta ggaccttgca cttgcttact 301 ctgaacctct cagaaaaagg ggtaagtgac agtttgctct ttgatacatc agatgatgaa 361 gagctgagag aacagctgga tatgcactca atcatcgtct cctgtgttaa tgatgaaccc 421 ctcttcacgg cagaccaggt tattgaagaa attgaagaaa tgatgcagga atcaccggac 481 ccagaagatg atgaaacccc tacacagtca gatcggcttt caatgctttc ccaggaaatt 541 caaactctca agaggtctag taccggcagt tatgaagaga gagtgaaaag gctctcagtg 601 tctgagttaa atgaaatcct ggaagaaatt gagactgcca ttaaggagta ctctgaggag 661 ctggtgcagc agttggcttt acgagatgaa ctggagtttg aaaaggaagt gaaaaacagc 721 tttatttctg ttcttattga agtgcaaaac aaacagaaag agcacaaaga aacagcaaaa 781 aagaaaaaga aactaaaaaa tggcagctct cagaatggga agaatgagag aagtcatatg 841 cccggcacat atttgactac agtcattcct tatgagaaaa aaaacggacc accgtctgtt 901 gaagatcttc aaatattaac aaaaattctt cgtgccatga aggaggacag tgaaaaagtt 961 ccgagcttgt taactgatta tattctgaaa gttctgtgtc ctacatagag cagcaacttt 1021 atctgcggtg ggctccaagc tagatttccg acagcattat tctgagagct ggctaccatt 1081 acccttcttg ctattggaaa ctcagcacat ttgaacttgg gtttgattca gtattaacag 1141 atcttgacta cactaattct ttatattata gaaccaacgg aaatatgggc actattttga 1201 attctagaga tggtttttgt taaatctact aataaactgt tctcttagta gattaagaga 1261 gagtaatatt aattgtgcat gtgcagttgt atttctcatt aactgacagt atgcccattt 1321 gtttttatgg ctttcttatc taaactgcac tgatgaacta gattaaagcc ttgggagatt 1381 tatactataa attcagtgat ggcaagaacc aacactgttt ttttgtgaga attgtcagtg 1441 taactattac ctaccagtat tgttcagaga gattgaaaca gaataaacgg gctgttcttg 1501 aagaagcaaa accagaatat gcattacttt ggtttaatac ttagtgctaa cattgaaact 1561 gttggtggtg atggattttg tagcttgctg cttgtttcac cactggtcaa attttaacca 1621 ttaaattgcc attcactttt agaatcttgt atttaagtaa gttttgattt tcaaatgttc 1681 tgcttcatgt gtctgtgaag aattgtactt ttttaaaagt gtgtgtcctc tgaggtgctt 1741 gagaaagtgt acactgcaga actgcccatt ctcattactg tgtcctattt tattcatgcc 1801 tgtgtgtttt tcttaagtat gaattctaga tacagctact tatggattca tcaatatcat 1861 gagcactttt gctggttcca gtcaaatcaa tggcatttaa taaatttttt aagaagtaaa 1921 aaaaaaaaaa aaaaaa 47: NM_005839   SRRM1 1 ggagtttagg gcctgacaga agcccgcccc cgctggcgct cgtgcgcacg cgtggcgggc 61 tctcggcgca ctgagcaggc gcggcctcgt gtcggccgga gggggcgggc gcaacgacgc 121 gcgctgcgtc ccggcgctcg gctttccctc cgccggtccc gccctccgtc gcggcggcgc 181 ggtgtaccct gggataggga gcgatctccg agcgaggcgg caagatggac gcgggatttt 241 tccgcggaac aagtgcagaa caggataatc ggttcagcaa caaacagaag aaactactga 301 agcagctgaa atttgcagaa tgcctagaaa aaaaggtgga catgagcaaa gtaaatttgg 361 aggttataaa gccttggata acaaaaagag taacggaaat ccttgggttt gaagatgatg 421 ttgtgattga gtttatattc aaccagctgg aagtgaagaa tccagactcc aaaatgatgc 481 aaatcaacct gactggattt ttgaatggaa aaaatgctcg agaatttatg ggagaactgt 541 ggcccctgct gctaagtgca caagaaaaca tcgcgggaat cccttctgct ttcctagaac 601 tgaagaaaga agaaataaaa caaagacaga ttgaacaaga aaaactggca tctatgaaaa 661 agcaagatga agacaaagat aaaagagata aggaagaaaa agaaagcagc agagaaaaaa 721 gggagcggtc tcgtagccca agaagacgca aatccagatc tccttcccct agaagacgat 781 cttcccctgt caggagagag agaaagcgca gtcattctcg atctccccgt cacagaacca 841 agagccggag tccttcccct gctccagaaa agaaggaaaa aactccagag ctcccagaac 901 cttcagtgaa agtaaaagaa ccttcagtac aagaggctac ttctactagt gacattctga 961 aagttcccaa acctgaacct ataccagagc ctaaagaacc ttctccggaa aaaaattcca 1021 aaaaagaaaa ggagaaggag aagacccgac cacgatctcg gtcacgctcc aaatcaagat 1081 cccggacgcg gtcccgctct ccttctcaca ctcgacctag acggcgccat agatcccgat 1141 caagatcgta ttcacctaga aggcggccaa gcccaagaag gcggccatct cctcgaagaa 1201 gaactccgcc aagaagaatg cctcctccac caaggcatag aaggagtaga tctccagtaa 1261 gacgaagaag acgttcgtca gcatccttgt ctgggagtag ctcatcatcc tcttcatctc 1321 gttcacggtc accaccaaag aagcctccca agaggacatc cagcccccct cggaaaactc 1381 gtaggttatc tccttcagca agtcctccaa ggcgaaggca caggccatca cctcctgcaa 1441 ctccaccacc caaaactcgg cattccccta caccccagca gtcaaaccgt acaagaaaaa 1501 gtcgtgtttc tgtgtctcca gggagaactt caggtaaagt gacaaaacat aaaggtactg 1561 agaaaagaga atccccttca ccagcaccga agcctagaaa agtagagtta tctgaatcgg 1621 aagaagataa aggtggcaaa atggctgcag cagattctgt gcagcagaga cgccaataca 1681 gacgacaaaa ccagcagtct tcatctgact ctggctcctc ctcctcctca gaagatgaac 1741 gacccaagag atcccatgtg aagaatggtg aggttggcag gcggcggaga cattcccctt 1801 cccggagtgc ttctccatca ccacgaaagc gccaaaaaga gacttcccct cgtggtagac 1861 ggaggagaag tccatcccca ccacccacca gaaggcgacg gtctccttct cccgcccctc 1921 ctcctcgacg gcgcaggact cccacaccac caccacgacg aaggactcct tctcctcccc 1981 cacgtcggcg ctcaccttct cctagaagat actctcctcc aatacagagg agatactctc 2041 cttctccacc tccaaagaga agaacggctt cacctcctcc ccctcctaaa cgaagagcat 2101 caccatctcc accaccaaag cggcgggtct cccattctcc acctcccaaa caaagaagct 2161 ccccagtcac caagagacgt tcaccttcat tatcatccaa gcataggaaa gggtcttccc 2221 caagccgctc tacccgggag gcccgatcac cacaaccaaa caaacggcat tcgccctcac 2281 cacggcctcg agctcctcag acctcctcaa gtcctccacc cgttcgaaga ggagcgtcgt 2341 catcacccca aagaaggcag tccccgtctc caagtactag gcccattagg agagtctcca 2401 ggactccgga acctaaaaag ataaaaaagg ctgcttcccc aagcccacag tctgtaagaa 2461 gggtctcatc ctcccgatct gtctccgggt ctcctgagcc agcagctaaa aagcccccag 2521 cacctccatc ccccgtccag tctcagtcac cgtctacaaa ctggtcacca gctgtaccgg 2581 tcaaaaaggc caaaagccca acaccgagcc catcaccgcc aagaaattca gatcaggaag 2641 gaggtggaaa gaaaaagaag aaaaagaagg acaagaaaca caaaaaggat aagaagcaca 2701 agaagcacaa aaaacacaag aaggaaaagg ctgtggctgc agctgctgca gctgctgtga 2761 cccctgcagc cattgcagct gccacaacca cattagcaca ggaagagcca gtggcagcgc 2821 cagagccgaa gaaggagact gaaagtgaag ctgaagataa ccttgatgat ttagaaaagc 2881 acctgcgtga aaaggccctg agatcaatga ggaaggccca agtgtcccca cagtcttagg 2941 gggaaatgtt tgttatgatg taaattttat ttggtttgta cgcagttcaa tttcaaaatt 3001 gctaaaatgt gtttgagctt tagactataa catttgttgt aataattgct aggttgaagt 3061 tcaacatgta aaaaaagggg gcatggattt acattgcaaa aggtgtccac agtgtattag 3121 tgacattctt tcattgacag ctgacataat tcattgagtg aaatatttta agccaaaaaa 3181 aaattccctt tttaaaaaag ggggtttaaa tactgttggc atttttatgg ttcctttaaa 3241 tgccctagct attcccagag gggttttttt gtttgttttt ttggttttga ttttcttttt 3301 gtttttcttt cttcttctta tttttttcat ttgagtctta gctcccattt aagttatgct 3361 tctgaccttg tatggtctgt aagcttgccc agaaataaga ccactgtttt gaactaccac 3421 aaaagtataa atgaatattt taatgccaca atctttcctg ttgcctgtgg agtctctgct 3481 gaaatgaatc aggattcgag ctctaggatg agacagaaaa tgaaagcatg ttgtttgcca 3541 ggacactgtg ggtttatatt gatgtgtaac aagttgattt ggaacactgg actctcattc 3601 tgttattctg gttttgtttt ttttgttttg ttttttttct tttgtaaagg caatgagcta 3661 gtcccagaaa ggatccttca gttacataca atttgtttaa tgaaatgtca tggctctgtt 3721 catatttttg tcttgttctt ccaattggta tatacaactt tcagagcctc ttgtatttgg 3781 aaggctggaa gggcccagac tttggaatag tgtcttggtt tcactgtttt tgttttgatt 3841 ttttttttgt tttgattttt tttaaactaa agctatataa agcttgtgga ttaaacagaa 3901 taaatttcta aatttaaaaa tttaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 3961 aaaaaaaaaa aaggaaaaaa aaaaaaaaaa 48: NM_006207   PDGFRL 1 cctgcgtccc cgccccgcgc agccgccgcg ctcctgcgct ccgaggtccg aggttcccga 61 gatgaaggtc tggctgctgc ttggtcttct gctggtgcac gaagcgctgg aggatgttac 121 tggccaacac cttcccaaga acaagcgtcc aaaagaacca ggagagaata gaatcaaacc 181 taccaacaag aaggtgaagc ccaaaattcc taaaatgaag gacagggact cagccaattc 241 agcaccaaag acgcagtcta tcatgatgca agtgctggat aaaggtcgct tccagaaacc 301 cgccgctacc ctgagtctgc tggcggggca aactgtagag cttcgatgta aagggagtag 361 aattgggtgg agctaccctg cgtatctgga cacctttaag gattctcgcc tcagcgtcaa 421 gcagaatgag cgctacggcc agttgactct ggtcaactcc acctcggcag acacaggtga 481 attcagctgc tgggtgcagc tctgcagcgg ctacatctgc aggaaggacg aggccaaaac 541 gggctccacc tacatctttt ttacagagaa aggagaactc tttgtacctt ctcccagcta 601 cttcgatgtt gtctacttga acccggacag acaggctgtg gttccttgtc gggtgaccgt 661 gctgtcggcc aaagtcacgc tccacaggga attcccagcc aaggagatcc cagccaatgg 721 aacggacatt gtttatgaca tgaagcgggg ctttgtgtat ctgcaacctc attccgagca 781 ccagggtgtg gtttactgca gggcggaggc cgggggcaga tctcagatct ccgtcaagta 841 ccagctgctc tacgtggcgg ttcccagtgg ccctccctca acaaccatct tggcttcttc 901 aaacaaagtg aaaagtgggg acgacatcag tgtgctctgc actgtcctgg gggagcccga 961 tgtggaggtg gagttcacct ggatcttccc agggcagaag gatgaaaggc ctgtgacgat 1021 ccaagacact tggaggttga tccacagagg actgggacac accacgagaa tctcccagag 1081 tgtcattaca gtggaagact tcgagacgat tgatgcagga tattacattt gcactgctca 1141 gaatcttcaa ggacagacca cagtagctac cactgttgag ttttcctgac ttggaaaagg 1201 aaatgtaatg aacttatgga aagcccattt gtgtacacag tcagctttgg ggttcctttt 1261 attagtgctt tgccagaggc tgatgtcaag caccacaccc caaccccagc gtctcgtgag 1321 tccgacccag acatccaaac taaaaggaag tcatccagtc tattcacaga agtgttaact 1381 tttctaacag aaagcatgat tttgattgct tacctacata cgtgttccta gtttttatac 1441 atgtgtaaac aattttatat aatcaatcat ttctattaaa tgagcacgtt tttgtaaaaa 1501 at 49: AI096936   SNX13 1 aaaaaaatta aggctaacca agtgcatcca ttgttcaatg gcacaattga tttcagcaac 61 tatttggaat atcctaatta taggaaatgc ccatctaagt gatatattta aataatacaa 121 tcaatttttt aaggtgaata aactatgatg gtttctaaat agtgtacatg ttacctgaaa 181 aatcagaaaa cacaaagaat gattaatttc gaaagttctt gcctaaaggc accactgact 241 taaaaaacat tcaaaatcaa ataccacaag acataaagcc tcttcatgta tatattcata 301 tatgcaataa atgcattaaa tgtaacttta ttaaacatag tacactgtac ttgacttatg 361 gttaaatatt ttacacacag cttga 50: NM_014785   KIAA0258 1 gccaggtccc tgaggggcgg gcagatgagg cctaggggtg ccgatcccta gtgtcgacta 61 tgcgagatct gattccggag ctgccatgat tgaagtggta gcagagctca gccggggtcc 121 tgtatttttg gctggggagg cgctggagtg tgtagtgacc gtcaccaacc cccttccgcc 181 cacggccact tctgcatcca gtgaggccct ggcctgggcc agtgcccaaa tccactgcca 241 gttccatgcc agtgagagtc gagtagcact gcctcctcct gactctagtc agccagatgt 301 ccagcccgac agccagactg tctttctgcc acaccgaggt gagaggggcc agtgtatcct 361 ttctactcca ccgaaaattc tattctgtga cctgaggctt gatcctggag agtccaaatc 421 atactcctac agtgaagtgc tgcccataga gggaccaccc tcctttcggg gtcagtcagt 481 caagtacgtc tacaaactga ccattggctg ccagcgtgtc aactccccta tcactttact 541 cagagtccct ctgagggttc ttgtgctgac tggccttcag gatgtccggt ttccccagga 601 tgaggctgta gccccatcca gtccattctt ggaggaggat gaaggtggga agaaagattc 661 atggctagct gagctggctg gggaacgcct aatggctgcc acatcctgcc gcagcctcca 721 tctatacaat atcagtgatg gccgagggaa agttgggacg tttggcatct tcaaatctgt 781 gtacagactt ggcgaggacg tggtggggac cttaaactta ggggaaggaa ccgtagcttg 841 tttgcagttt tcagtcagct tacagaccga ggagcgtgta cagcctgagt accagcggcg 901 acgtggggca gggggtgtcc cctctgtgtc acatgtgact cacgcccggc accaggaatc 961 ctgcctacat acaactagaa ccagcttctc cctcccaatc cctctcagct ccaccccagg 1021 cttctgtaca gccattgtgt ccttgaagtg gagattgcat tttgaatttg taacgtcccg 1081 agaaccagga ttggtactcc taccccctgt ggaacagccc gaacctacca cctggacagg 1141 acctgagcaa gtacctgtag acaccttcag ctgggacctg cccatcaagg tgctgcctac 1201 tagccccacc ctggcctcat atgctgcccc aggccccagc accagcacca taaccatctg 1261 aaactggccc accctggtgc tagttccttc cggatactga gaactcagca cctggactct 1321 aatgggaccc actttttcca cctggggtcc aatgtcgtgg acagtgagag tcgggctttc 1381 agctatagca ttaatttatt tgttcagaat acattggcag ctgctagtgg tttccctgga 1441 agtggcagca gcagtgagca gtcagcagat ggatgatcag ttgagtttag ctggagtggg 1501 gagcaggagc cccaggaaca ggggtgttgg ctgagcccca ttctgggtca ggccctcccc 1561 ctttgcaggg cagccgaggg tcagattttt gcaccaagga gaactggcag gttcctgcct 1621 cctgacgtac ctcacaccca gccgggaagt cgatgggatg ctgggacctg gggaaccaag 1681 gataggggaa ggagtcagca cagtgaaagg ctgcctttat ccctgcccac atgttccctc 1741 tctcacagtt ttccccccac agagcccctt tcagtggccc cttggtcctc ctaactaagc 1801 tgtcacctac catatgtggg cctttttgtt ttataacagg agtattttct ctccaggtcc 1861 accccaacct cccctgattt atagcctgaa gccttatctt tcacactagt gttggtccct 1921 tcaggtttgg cccatcttgt attgctcttc tgttcattct tacatcacag caatctagtc 1981 actccctggt catccctcag tcactcatat cagagtcatt ctctctggcc atctttggtc 2041 actcacgtgt cacagcagcc cacgccaaca ggatgcagac aggtgcaatg gaaacagtcc 2101 ttgcggagcc aagactcacc cagggtaaaa tatttcccct catagtgaca gggggctagg 2161 gaagaacggg aaatgttagt aggtgtagga gtgctgatga gaggcagagg ctcttctggt 2221 ctggggtgga gacagtaagt acgcactatc cccgtattta gtttgtcttt cctgtttcac 2281 agctggagga agcctgggta ttttgacacg ggatcatctg taaggcccca tcctccctgt 2341 gccctctctg ctgctcctcc attcctaacg cttcacccca ctttaccttg agcttggaag 2401 tagcacttgc tgtagactcc tgggtgctgg aggagtagag acatcaccaa gcagatgatc 2461 ccccagcctc ctaggatccc cttggcctgt ccagcccaga gcatccttag ggccattgct 2521 gctgcacagc cctctcagac ccttcttggc ctctgctcag ctactctggt cttgactcct 2581 tgactttgct ttgcgttgct ccttgagtct tagtttctgt ctttctcccc tgggctcctg 2641 tctcacacta tctccctgcc ctctgctctc acaggctggg gatgtttata aagtgaggac 2701 cctggccccc tgctgagtag agctggaaaa gttgtaactc tgtttcctga ggtgagggca 2761 tgaaaacaag aggtctagct ttaacaagct gtgagagctg attcatgccc cggcacagct 2821 agagggaggg aggtggccat ggagggggca ctggactggg cacttcccca gcaaggaggc 2881 aggaggggcg agggccccca ggtggtcccc agatctcttc cctgacctgg agagaaggaa 2941 gcattccacc ttcccccttt ctcccccact gccaccacca ggggtgtgta tgctgggatc 3001 cctgcctgga ccggagggag gcatttcctg gggatggtta atcctgtgcc ccagccaaac 3061 ccaggagctg caatagggtg cgacggccag aagctccagg agagtgagca ggcacctgga 3121 gtggagactg tgtttccctc agatcctagg gcagggtttc cctaatgtat ccaagaaata 3181 gggctgcccc tcagagatgg tggggagggt ctcttttcct caggcattcc agaggtgaac 3241 tgtccattgc ttatcacctt caaacataca gcagatgtgg gatcacccca catctgggga 3301 tggttctttc ccctttcaaa gaggagcatc tctaagtgcc ctgatgggat gaatcactcc 3361 aggttcacag aggtgtcctc tctttcctcc catatataat ggagtgaggt ttttaggaat 3421 ttatcatttg gcatcctctg agtttcccac aggttctgga ggagcccagg atggattatt 3481 gagagcatgg gctgtagaga cagtcttctt ggattcagat cctgactcca cttagctatg 3541 taacctggtc agattacttc acctctctga gcctgtttcc tcatctataa attggggata 3601 gtaatgccaa ctcattgggc tgttatgagg attactgaga taatgcgtgc agtgctctta 3661 tcaccatctc tggtgcgtaa gcgtcaggaa atagcagttg ctgtgattgg ggctaaagct 3721 ctgaggcaaa atgggcgaca ttattttctt tgaatgacat taagcagttt gtgcatagct 3781 gagggcttct attggggatg gctgtctcct ggcatagacc tctgcacctt tcacactcat 3841 actccttgtc agcagtcccc aacctttttg gtaccaggga ccggttttgt ggaaaacaat 3901 ttttccacca gtggatggag ggggatagca gcggggagat gattttggga tgaaactgtt 3961 tcatctcaga tcatcaggca ttagattctc ataaggagtg tgcaatctag atcccttgca 4021 tgcggagttc acagtggggt ttgcactcct gtgagaatct aatgcctctg ctgatctgcc 4081 aggaggagga gctcaggcgg taatgctcac tcgcctgccg cccacctcct gctttgtgct 4141 cccgcttcct aacaggccac agactggtac tggcctgtgg cctgggggat ggagacccct 4201 aatccatgtc acctttccca cctctttcaa aaacaggtac ctccaggaac attttggttt 4261 tggcccttgt attgacttct gaatgtctag tttgagaaac tgttcccaaa taagccttct 4321 tcccccagat ctgcaccctc gcctctaccc taggacaaga tgtccttttc tcatcatcct 4381 gccaggctaa ctttaagtct cctgcttttt ctcacttgga tttggatcca tttcttccta 4441 tttccgctca tgtgaactct ccagttctcc tttctcacca ctctcctgct agccatctct 4501 ttggcactaa aggccctggt caaattggat ttctttcatt tttccacact tcaaagaccc 4561 atgttctagg tattctccat agggatagtc tctttggcat ttatttggtt tttctacgtt 4621 ttcagtccca tttactccaa gactcactcc ctgccaccta gtgcatcaga tacagctact 4681 tctggctgac ttttcaaggg ggaccaccct acctgtcatc tcttcactgt tcagaaatga 4741 ctgtgtcagt gcacctcaaa ctcccttgct gtccttttcc aaggagacag ctaaggtgga 4801 tggagatgca gaatggacct cacgttcgcc ctagtcagga ctgataccct ttccgtttca 4861 gaggattgcc aagaaaaaac tcacagttga ggcagggtgc tctgaggtcg gctgcggtgt 4921 gggaggcacg gcctgggcct gctctctggg ctggagcagg tggattcgaa ggcctgtcta 4981 gcacgagggc ccaaaggtct tgtcagtggc cagtagctct gccgcctttc ccagagaggg 5041 ggtccagggg acatcctgga aggctgggcc ctgggccacc ttctgctctt gcaagctaga 5101 gccagcccaa tagggggcgg atgtgagtgg ggagctgggg cgcatgaagg tgggggtgat 5161 gccgaagggg aagggatcgc cagtggggat tggtgcgtgt gcggaaacgg ggacagaagt 5221 gaaggttcat cgcctataac gaagatgagg taggcatata ggggcttctg gaaagctaga 5281 ggctgggctg agccaggagt cctctcccag aagttggggg gcggtgcaga ggtgtgggtc 5341 gagcccgcat gcgtgcctgc tggggagggg gtgagtggtg aggaccaggc ccgctgggtc 5401 ctgggggcgc ggtggctggc gcgcaggtcc cggagggggc ggctggcgcg cactacacgc 5461 ttgggaacaa ggaaaacatc cgccggaggc ccggccgggc ggcgctccag cctcggggca 5521 ggtgcgcgga gaggaagtga gagcattccg gcccccccac cccaaccccg gccgctggcc 5581 ctctggtgag tcacagccga cccccgccgc cggagggaga ggggagctgc gggccagagc 5641 cccggagggt ctggaggagc caggagggtt tctgggagca gagggtcact tagtgggctt 5701 ctgtcgtggt gtcgctacgg gcgcgaaacg gacactgaac acagtctgac tgtatggagg 5761 caggtgggga gggatcccct gggagaactt ggcgggccga gagcagaccc cagggcaagg 5821 aggggccccc gagggggaaa ccgggagtcg ggcaggtggc gtaacccaga aagggaagga 5881 gagccggatt gattggggtg agagaggaag gaagcacgcc aagttaggcc tgggagaact 5941 gagggacctg aggagggagg agggagacca acacagggtg ggaaggcgga aatggccaaa 6001 ccccaggcat caggtctgtc cagaggctga cgtagacagt gaagggtgaa gggtaggttt 6061 taggagtagg gggagttatg attatttggt tacattttgg gattatttgg tctcacaggt 6121 agaagggagc ctgctggtct ctgtgtaacg gatggcttaa aagcaaggtt gtctgcgtct 6181 tggattactg tctgccattc agcctttgcc aaaaaatttg gcactgatct gcacattttt 6241 atagtcattt aaaattgtat gactctgtca aatgatttaa gtaattttgg tggattttta 6301 aaaataaaaa aat 51: BF973104   TOM7 1 ggtaaggggt cctccctgcg ccacacggcc gtcgccatgg tgaagctgag caaagaggcc 61 aagcagagac tacagcagct cttcaagggg agccagtttg ccattcgctg gggctttatc 121 cctcttgtga tttacctggg atttaagagg ggtgcagatc ccggaatgcc tgaaccaact 181 gttttgagcc tactttgggg ataaaggatt atttggtctt ctggatttgg aggcaatcag 241 cggacagcat ggaagatgtg tgctctggct cggataagag atgggacatc attcagtcac 301 tagttggatg gcacaaggct cttcacagac gcatctgtag cagagtggat cttgtactaa 361 cttatgatag aatgtatcag aataaatgtt tttaacagtg taaacaccac aaacaaaaaa 421 cacaacacac acatcataca cacaaaaaac acaaaaaaaa caaacaaatc acacaaaagc 481 tacggtagac ctactattat gcggtgggcc gaaacaagac gggtattata gacaagggaa 541 acgagtcgtc aaatcgtcgt agcctgacac acatcatatt gttagaccca gcgtgtgcaa 601 tatctcgccg gggtagctcc ctcatatgag ggacacgtta tatatgtctc agatagggcg 661 ccggggtata acctgcagtt ttatagatat gctggcaaca gaaaaaagcg atgtaaaaaa 721 aaaaatgaag acaacataaa cacacacaca aagatactat cacatatata ctataaccaa 781 aaaatctcaa agcgtaaatc aaaaatacac taaaacaatt cacagccata ttcactacac 841 cctatccacc ccacacaaaa aaaataagac acaaaacatc acacatatac acactaccta 901 tcattttata ctttaatcta atataattaa gtaacaaatc aacacaaata tacacacgat 961 cgatagatac actgataaaa ttcaacaaac aaaataccaa ataaaatata ctaaacacac 1021 cactagacga gcatcttata ttgcactttt acgtagacct ctgatcaata acaacagacc 1081 tactccacaa atatactact aacacacaaa caatgcaaac agcacagaat aac Rank GenBank Gene Order ID Symbol Gene Name Nucleotides 5 NM_004090 DUSP3 dual specificity phos- GGATCCTTTATTGGTGGTAGAG phatase 3 (vaccinia CAAAAAAACCCAAACACGATAA virus phosphatase VH1- ACCTTTCAAAAGACTTTCTAAG related) GATGATATTGGAATGCACCAGC CCTCACATGTGTATGCACATTT GCCAGAATATAAGAGTTTTGTT TTAAATACAGTCTTGTTAGGAT TTTACGTTATTGTTATTATGGA AAGTGATTGTGATGCTATTTAT CTTCAGGGTCACTCTGG 6 AI026836 DJ473B4 hypothetical protein GCAGTCGTTTCAACCAGGTAGT dJ473B4 TTTGGGTTGTTTTTAAAGCCCT TTTGAGGTCTTACACATTATTA ACTTTAAAATAATCAGGCAGCT AAGAATAATTACTAGAAAAATC ATCTACCACTTCAAACATGGTC AACTACTTCAAAACTGCACCTA GAGAATCAGGTACCTGAAGTAG AACAAGAAGCCTGGAGGTGGAC TTTGAGAGGAGGGAATACCC 7 BU500509 PHLDA2 pleckstrin homology-like TACGTGTACTTCACCATCGTCA domain, family A, member CCACCGACCACAAGGAGATCGA 2 CTTCCGCTGCGCGGGCGAGAGC TGCTGGAACGCGGCCATCGCGC TGGCGCTCATCGATTTCCAGAA CCGCCGCGCCCTGCAGGACTTT CGCAGCCGCCAGGAACGCACCG CACCCGCCGCACCCGCCGAGGA CGCCGTGGCTGCCGCGGCCGCC GCACCCTCCGAGCCCTCGGAGC CCTCCAGGCCATCCCCGCAGCC CAAACCCCGCACGCCATGAGCC CGCCGCGGGCCATACGCTGGAC GAGTCGGACCGAGGCTAGGACG TGGCCGGCGCTCTCCAGCCCTG CAGCAGAAGAACTTCCCGTGCG CGCGGATCCTCGCTCCGTTGCA CGGGCGCCTTAAGTTATTGGAC TATCTAATATCTATGTATTTAT TTCGCTGGTTCTTTGTAGTCAC ATATTTTATAGTCTTAATATCT TGTTTTTGCATCACTGTGCCCA TTGCAAATAAATCACTTGGCCA GTTTGCTTTTCTACCATCC 8 NM_016090 RBM7 RNA binding motif CTGTGACATGCTCTTGAGCTTT protein 7 ACCCTAGTTGAACATACATGTG TAGATTTACACATACTGTTTCA TTNNNNAATTTAGAAATTGTTC ATTAAATCCCATTTGAGGTATA AGTCACTCAGGAAGTTAAAATA TCTCTACACGTATATTTTTACA TTAAAAATACAGTGTTAGCATA ANNNNCCCTTTNNNNNGAAGAA CAAAAATGTCAGTGCATAGTTA GATAAAATGGTAAAATGTTTTA CTGAAAGCATACTTTTTTGGAA AATAGATTCATGAAGCCTTTAA GTGCTGCTTCTGTCAGTCAAAC GTTAAAAACTTTAACATTTTCA AAGTGCCCAGAGTGTGTACAAA GACACATGTAATGGAGATTGTA CAGGTTGTTTTTTTGTTTGAAC CTTTGAAAGAGTTTAATCTTAA CGTTTTCTAATTTTAAAATTTT AAAATCTTGTTTAACAAAAGCT TGTATTAAGATACTGTTTTCAT TTCATTACAGAATTGTTTATAA AAGTTCATTTGTTGAAAANNNA GGATCCTTTTTAATACCACAGC ATTTGTACTGTTCCT 9 BX092512 EST ATATGTGCACACACACACTCAC ACCCACACCCATAAAGATTTTG CACTCCTTGAAGGTACACTAAC TCACCATTTTTATCATACTTAT CCCAGTGTGCCACAGTTACTGG CTTATATGCCTGTCTCTGCTAT CTTATTTTATCTGTCTCCACAA CACAGCAAACTACCTGGCCTTC AATAAAGGGCTTATGAATTATT CATGAATCCATTTTGCCAGGTG CCTAGCCCTGTGTCTGGCTTGA AGCAGGTGTTCCCAAGGTGTGG CATGGCTGAGTGAATACAAAT 10 AI436027 OSMR oncostatin M receptor CACCAATGAGCTTACTACCCAA CTTCAAAACTAGGACTCTAACA ATAACTTCTGTCATATCTCATC CTGTAACGCCCCCACCTTCGCT CCTTCCGCCAAGATAATTATCA CTTTAAATTGTGTGCGTGTGTA TTCTCATTTCTTATGTGATGGT AAAAATGCCTTTATTTTGTTTG GTTTTAATGCATAGAAAGGACA TCAAGCTGT 11 AI971137 GCLC glutamate-cysteine li- CTCTAAAAGCCATTCACTCCAG gase, catalytic subunit ATTTTACCTGGGGAATATTCTA CATACTGCTTACTTTCTCTATA AAACTCATCAATAAATCATGAA AGGCACTGAGTTTTGTAAATCA GGACCCTAAATGTTTAATTGTA AATAAGTTTCAGATAATTATTA TAGCTTTGCGTTGAAGTTNNNN NNNNNTTTCTCTCAACTAGTTA AGTCAACTGCTTCTGAAATAAC TCTGTATTGTAGATTATGCAGA TCTTTACAGGCATAAATATTTA AACTGTAATATGCTAACTTGAA GAGATTGCAATAAAGCTGCTTC AGCTAAC 12 BQ024877 COL4A3BP collagen, type IV, alpha CTCACTGAAGTTGAAATGACTG 3 (Goodpasture antigen) CCCACTTCAAAATCTTCATTGT binding protein GTTTACACACCAGTGTATTTAT ACAAATCAGAGGCATTTTGTAG ATGCTTTGCTGACTTGTTCAGC TCTGTAAAAACACAGAAATCAG ACCCATTTTGTAAAGCGGAAAA TCATGTTACATGGAACATGTCC TGTATATATCACATACATGGTA ATGGAGTCTTAATGATAAGTGC AAGATAATAATTTAATGATGGG ATTAGTCTGATCGCTTAATATG CACAATCCTGGAAGTGAATTAC TTGCATCAGATATAGTGATATT TATTATTCTGTACAGAGAGAAA AATACATATAAAACATATGCTT ACATTACATGCACGCGGATTTC ATGCTCCATAATCTTTTCTATT TTTTAATTTACCTTTCTGTAAA TGATGTGCATGGAATATGCCTT ATAGAAAAATGCTGTTCATAAT TTGACTACGTGGAAAAGTGCCT ATATGGTGGTAATGCTAGTAAG GCA

TABLE 5A Correlation of cDNA microarray data with semi-quantatative RT-

Spearman rank correlation Rank Order Gene Symbol ρ p-value 1 FLJ22662 0.69 0.02 2 AREG 0.53 0.08 3 CORO1C 0.35 0.24 4 AVEN 0.63 0.04 5 DUSP3 0.63 0.04 6 DJ473B4 0.45 0.14 7 PHLDA2 0.84 0.01 8 RBM7 0.83 0.01 9 EST(BX092512) 0.63 0.04 10 OSMR 0.67 0.03 11 GCLC 0.46 0.13 12 COL4A3BP 0.27 0.24 Correlations positive for all 12 genes and significantly positive for 7 of 12 ge

TABLE 5B Result of immunohistochemical staining PR PD AREG 1/5 5/6 TGFA 2/5 6/6 ADAM9 1/5 4/6 CD9 2/5 5/6 OSMR 2/5 6/6 

1. A set of isolated marker genes comprising at least one gene identified as having differential expression as between patients who are responders and non responders to an erbB receptor tyrosine kinase inhibitor; said gene set comprising one or more genes selected from at least the group consisting of the 51 genes listed in Table 4 herein including gene-specific oligonucleotides derived from said genes.
 2. The set according to claim 1 comprising at least one or more of the first 40 genes listed in Table 4 herein.
 3. The set according to claim 1 comprising at least one or more of the first 20 genes listed in Table 4 herein.
 4. The set according to claim 1 comprising at least one or more of the first 12 genes listed in Table 4 herein.
 5. The set according to claim 1 comprising at least one or more of the first 5 genes listed in Table 4 herein.
 6. The set according to claim 1 which is first 12 genes listed in Table 4 herein, namely the genes FLJ22622 (e.g. GenBank NM_(—)024829), AREG (e.g. GenBank BC009799), C0R01C (e.g. GenBank NM_(—)014325), AVEN (e.g. GenBank BC010488), DUSP3 (e.g. GenBank NM_(—)004090, DJ473B4 (e.g. GenBank AI026836), PHLDA2 (e.g. GenBank BU500509), RBM7 (e.g. GenBank NM_(—)0106090), EST (GenBank BX0952512), OSMR (e.g. GenBank AI436027), GCLC (e.g. GenBank AI971137), COL4A3BP (e.g. GenBank BQ024877).
 7. The set according to claim 6, wherein the genes comprise the sequences set forth in Table 4a.
 8. The set according to claim 6, wherein the set comprises gene-specific oligonucleotides, said oligonucleotides comprising 5 to 50 nucleotides of the sequences set forth in Table 4a.
 9. The set according to claim 1 wherein the inhibitor is selected from the group consisting of gefitinib, OSI-774, PKI-166, EKB-569, GW2016 and CT-1033.
 10. The set according to claim 9 wherein the agent is gefitinib.
 11. The set according to claim 1 wherein the inhibitor is an anti-erbB antibody.
 12. The set according to claim 11 wherein the antibody is trastuzumab or cetuximab.
 13. A method of predicting the responsiveness of a patient or patient population with cancer to treatment with an erbb receptor kinase inhibitor, or for selecting patients or patient populations that will respond to an erbB receptor kinase inhibitor comprising comparing the differential expression of one or more marker genes, said marker genes selected from the gene sets as defined in claim
 1. 14. The method according to claim 13 wherein the responsiveness of the patients is represented by the generation of a Drug Response Score.
 15. The method according to claim 13 wherein the comparison is performed by microarray assay.
 16. The method according to claim 13, wherein the comparison is performed by immunohistochemistry.
 17. The method according to claim 16, said method comprising detecting the differential expression of amphiregulin.
 18. The method according to claim 13 wherein the inhibitor is selected from the group consisting of gefitinib, OSI-774, PKI-166, EKB-569, GW2016 and CI-1033.
 19. A diagnostic kit for use in the method of claim 13 comprising a marker gene set selected from the group as defined in claim 1 on a suitable support medium.
 20. The kit according to claim 19 which comprises a microarray.
 21. A method of treating a patient with cancer comprising administering an inhibitor selected from the group consisting of gefitinib, OSI-774, PKI-166, EKB-569, GW2016 and CI-1033, and testing the differential expression of a set of marker genes, said set selected from the group as defined in claim
 1. 22. A method of measuring expression level of genes selected from the group consisting of the 51 genes listed in Table 4 in a tissue sample from a patient having Non-small Cell Lung Cancer (NSCLC), comprising contacting an isolated gene sequence selected from the group consisting of the 51 genes listed in Table 4, including gene-specific oligonucleotides derived from said genes, with said sample.
 23. A diagnostics kit comprising means for determining the level of expression, of one or more genes selected from selected from the group consisting of the 51 genes listed in Table 4 herein including gene-specific oligonucleotides derived from said genes in a tissue sample from a NSCLC patient, comprising a support material comprising a set of isolated marker genes, as defined in claim 1, at least one gene thereof attached thereto.
 24. A method of treating NSCLC patients identified according to the method of claim 13, comprising administering an inhibitor selected from the group consisting of gefitinib, OSI-774, PKI-166, EKB-569, GW2016 and CI-1033.
 25. A method of treating patents or patient populations having NSCLC identified according to the method of claims 13 comprising administering to said patients an erbB receptor tyrosine kinase inhibitor.
 26. A pharmaceutical composition for the treatment of a patient having NSCLC, comprising an erbB receptor tyrosine kinase inhibitor.
 27. A method of testing, or testing for, an erbb tyrosine kinase receptor inhibitor comprising treating the patient and assessing if the compound modulates gene expression of at least one of the gene from the marker gene set according to claim 1 relative to a relevant control.
 28. A method of carrying out a clinical trial to measure the effect or effectiveness of erbb receptor tyrosine kinase inhibition or inhibitors comprising measuring the relative levels of expression of a gene set as defined in claim 1 in a patient or patient population. 